US20140010861A1 - Modified polynucleotides for the production of proteins associated with human disease - Google Patents

Modified polynucleotides for the production of proteins associated with human disease Download PDF

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Publication number
US20140010861A1
US20140010861A1 US13/791,910 US201313791910A US2014010861A1 US 20140010861 A1 US20140010861 A1 US 20140010861A1 US 201313791910 A US201313791910 A US 201313791910A US 2014010861 A1 US2014010861 A1 US 2014010861A1
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US
United States
Prior art keywords
optionally substituted
independently
alkyl
polynucleotide
isolated polynucleotide
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
Application number
US13/791,910
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English (en)
Inventor
Stephane Bancel
Tirtha Chakraborty
Antonin de Fougerolles
Sayda M. Elbashir
Matthias John
Atanu Roy
Susan Whoriskey
Kristy M. Wood
Paul Hatala
Jason P. Schrum
Kenechi Ejebe
Jeff Lynn Ellsworth
Justin Guild
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Moderna Inc
Original Assignee
Moderna Therapeutics Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Family has litigation
First worldwide family litigation filed litigation Critical https://patents.darts-ip.com/?family=49235350&utm_source=google_patent&utm_medium=platform_link&utm_campaign=public_patent_search&patent=US20140010861(A1) "Global patent litigation dataset” by Darts-ip is licensed under a Creative Commons Attribution 4.0 International License.
Priority to US13/791,910 priority Critical patent/US20140010861A1/en
Application filed by Moderna Therapeutics Inc filed Critical Moderna Therapeutics Inc
Assigned to modeRNA Therapeutics reassignment modeRNA Therapeutics ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: SCHRUM, Jason P.
Assigned to modeRNA Therapeutics reassignment modeRNA Therapeutics ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: EJEBE, KENECHI G.
Assigned to modeRNA Therapeutics reassignment modeRNA Therapeutics ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: DE FOUGEROLLES, ANTONIN, ELBASHIR, Sayda M., ELLSWORTH, JEFF LYNN, GUILD, JUSTIN, HATALA, PAUL, JOHN, MATTHIAS, ROY, ATANU, WHORISKEY, SUSAN, WOOD, Kristy M., CHAKRABORTY, TIRTHA
Assigned to modeRNA Therapeutics reassignment modeRNA Therapeutics ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: BANCEL, STEPHANE
Priority to US14/105,221 priority patent/US20140255468A1/en
Priority to US14/105,217 priority patent/US20140255467A1/en
Priority to US14/105,214 priority patent/US20140171485A1/en
Priority to US14/105,224 priority patent/US9220755B2/en
Priority to US14/105,210 priority patent/US20150044277A1/en
Publication of US20140010861A1 publication Critical patent/US20140010861A1/en
Priority to US14/171,235 priority patent/US20140206755A1/en
Priority to US14/171,249 priority patent/US9089604B2/en
Priority to US14/171,242 priority patent/US20140200264A1/en
Priority to US14/171,226 priority patent/US9061059B2/en
Assigned to MODERNA THERAPEUTICS, INC. reassignment MODERNA THERAPEUTICS, INC. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: EJEBE, KENECHI, DR.
Priority to US14/508,631 priority patent/US20150050354A1/en
Assigned to MODERNA THERAPEUTICS, INC. reassignment MODERNA THERAPEUTICS, INC. CORRECTIVE ASSIGNMENT TO CORRECT THE RECEIVING PARTY NAME PREVIOUSLY RECORDED AT REEL: 030187 FRAME: 0748. ASSIGNOR(S) HEREBY CONFIRMS THE ASSIGNMENT. Assignors: BANCEL, STEPHANE
Assigned to MODERNA THERAPEUTICS, INC. reassignment MODERNA THERAPEUTICS, INC. CORRECTIVE ASSIGNMENT TO CORRECT THE RECEIVING PARTY NAME FROM MODERNA THERAPEUTICS TO MODERNA THERAPEUTICS, INC. PREVIOUSLY RECORDED AT REEL: 030043 FRAME: 0160. ASSIGNOR(S) HEREBY CONFIRMS THE ASSIGNMENT. Assignors: DE FOUGEROLLES, ANTONIN, ELBASHIR, Sayda M., ELLSWORTH, JEFF LYNN, GUILD, JUSTIN, HATALA, PAUL, JOHN, MATTHIAS, ROY, ATANU, WHORISKEY, SUSAN, WOOD, Kristy M., CHAKRABORTY, TIRTHA
Assigned to MODERNA THERAPEUTICS, INC. reassignment MODERNA THERAPEUTICS, INC. CORRECTIVE ASSIGNMENT TO CORRECT THE RECEIVING PARTY'S NAME PREVIOUSLY RECORDED AT REEL: 030026 FRAME: 0313. ASSIGNOR(S) HEREBY CONFIRMS THE ASSIGNMENT. Assignors: SCHRUM, Jason P.
Priority to US15/060,707 priority patent/US9782462B2/en
Priority to US15/440,523 priority patent/US20180086807A1/en
Priority to US16/665,985 priority patent/US20210115101A1/en
Priority to US18/634,220 priority patent/US20240327476A1/en
Abandoned legal-status Critical Current

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Definitions

  • the invention relates to compositions, methods, processes, kits and devices for the design, preparation, manufacture and/or formulation of polynucleotides, primary constructs and modified mRNA molecules (mmRNA).
  • mmRNA modified mRNA molecules
  • introduced DNA can integrate into host cell genomic DNA at some frequency, resulting in alterations and/or damage to the host cell genomic DNA.
  • the heterologous deoxyribonucleic acid (DNA) introduced into a cell can be inherited by daughter cells (whether or not the heterologous DNA has integrated into the chromosome) or by offspring.
  • nucleic acid based compounds or polynucleotides which encode a polypeptide of interest (e.g., modified mRNA or mmRNA) and which have structural and/or chemical features that avoid one or more of the problems in the art, for example, features which are useful for optimizing formulation and delivery of nucleic acid-based therapeutics while retaining structural and functional integrity, overcoming the threshold of expression, improving expression rates, half life and/or protein concentrations, optimizing protein localization, and avoiding deleterious bio-responses such as the immune response and/or degradation pathways.
  • a polypeptide of interest e.g., modified mRNA or mmRNA
  • compositions, methods, processes, kits and devices for the design, preparation, manufacture and/or formulation of modified mRNA (mmRNA) molecules are described herein.
  • FIG. 1 is a schematic of a primary construct of the present invention.
  • FIG. 2 illustrates lipid structures in the prior art useful in the present invention. Shown are the structures for 98N12-5 (TETA5-LAP), DLin-DMA, DLin-K-DMA (2,2-Dilinoleyl-4-dimethylaminomethyl-[1,3]-dioxolane), DLin-KC2-DMA, DLin-MC3-DMA and C12-200.
  • TETA5-LAP TETA5-LAP
  • DLin-DMA DLin-K-DMA (2,2-Dilinoleyl-4-dimethylaminomethyl-[1,3]-dioxolane)
  • DLin-KC2-DMA DLin-MC3-DMA
  • C12-200 C12-200.
  • FIG. 3 is a representative plasmid useful in the IVT reactions taught herein.
  • the plasmid contains Insert 64818, designed by the instant inventors.
  • FIG. 4 is a gel profile of modified mRNA encapsulated in PLGA microspheres.
  • FIG. 5 is a histogram of Factor IX protein production PLGA formulation Factor IX modified mRNA.
  • FIG. 6 is a histogram showing VEGF protein production in human keratinocyte cells after transfection of modified mRNA at a range of doses.
  • FIG. 6A shows protein production after transfection of modified mRNA comprising natural nucleoside triphosphate (NTP).
  • FIG. 6B shows protein production after transfection of modified mRNA fully modified with pseudouridine (Pseudo-U) and 5-methylcytosine (5mC).
  • FIG. 6C shows protein production after transfection of modified mRNA fully modified with N1-methyl-pseudouridine (N1-methyl-Pseudo-U) and 5-methylcytosine (5mC).
  • FIG. 7 is a histogram of VEGF protein production in HEK293 cells.
  • FIG. 8 is a histogram of VEGF expression and IFN-alpha induction after transfection of VEGF modified mRNA in peripheral blood mononuclear cells (PBMC).
  • FIG. 8A shows VEGF expression.
  • FIG. 8B shows IFN-alpha induction.
  • FIG. 9 is a histogram of VEGF protein production in HeLa cells from VEGF modified mRNA.
  • FIG. 10 is a histogram of VEGF protein production from lipoplexed VEGF modified mRNA in mice.
  • FIG. 11 is a histogram of G-CSF protein production in HeLa cells from G-CSF modified mRNA.
  • FIG. 12 is a histogram of Factor IX protein production in HeLa cell supernatant from Factor IX modified mRNA.
  • RNA ribonucleic acid
  • RNA ribonucleic acid
  • compositions including pharmaceutical compositions
  • methods for the design, preparation, manufacture and/or formulation of polynucleotides encoding one or more polypeptides of interest are also provided.
  • these polynucleotides are preferably modified as to avoid the deficiencies of other polypeptide-encoding molecules of the art. Hence these polynucleotides are referred to as modified mRNA or mmRNA.
  • polynucleotides, primary constructs and/or mmRNA encoding polypeptides of interest which have been designed to improve one or more of the stability and/or clearance in tissues, receptor uptake and/or kinetics, cellular access by the compositions, engagement with translational machinery, mRNA half-life, translation efficiency, immune evasion, protein production capacity, secretion efficiency (when applicable), accessibility to circulation, protein half-life and/or modulation of a cell's status, function and/or activity.
  • nucleic acid molecules specifically polynucleotides, primary constructs and/or mmRNA which encode one or more polypeptides of interest.
  • nucleic acid in its broadest sense, includes any compound and/or substance that comprise a polymer of nucleotides. These polymers are often referred to as polynucleotides.
  • nucleic acids or polynucleotides of the invention include, but are not limited to, ribonucleic acids (RNAs), deoxyribonucleic acids (DNAs), threose nucleic acids (TNAs), glycol nucleic acids (GNAs), peptide nucleic acids (PNAs), locked nucleic acids (LNAs, including LNA having a ⁇ -D-ribo configuration, ⁇ -LNA having an ⁇ -L-ribo configuration (a diastereomer of LNA), 2′-amino-LNA having a 2′-amino functionalization, and 2′-amino- ⁇ -LNA having a 2′-amino functionalization) or hybrids thereof.
  • RNAs ribonucleic acids
  • DNAs deoxyribonucleic acids
  • TAAs threose nucleic acids
  • GNAs glycol nucleic acids
  • PNAs peptide nucleic acids
  • LNAs locked nu
  • the nucleic acid molecule is a messenger RNA (mRNA).
  • mRNA messenger RNA
  • the term “messenger RNA” (mRNA) refers to any polynucleotide which encodes a polypeptide of interest and which is capable of being translated to produce the encoded polypeptide of interest in vitro, in vivo, in situ or ex vivo.
  • the basic components of an mRNA molecule include at least a coding region, a 5′UTR, a 3′UTR, a 5′ cap and a poly-A tail.
  • the present invention expands the scope of functionality of traditional mRNA molecules by providing polynucleotides or primary RNA constructs which maintain a modular organization, but which comprise one or more structural and/or chemical modifications or alterations which impart useful properties to the polynucleotide including, in some embodiments, the lack of a substantial induction of the innate immune response of a cell into which the polynucleotide is introduced.
  • modified mRNA molecules of the present invention are termed “mmRNA.”
  • a “structural” feature or modification is one in which two or more linked nucleotides are inserted, deleted, duplicated, inverted or randomized in a polynucleotide, primary construct or mmRNA without significant chemical modification to the nucleotides themselves. Because chemical bonds will necessarily be broken and reformed to effect a structural modification, structural modifications are of a chemical nature and hence are chemical modifications. However, structural modifications will result in a different sequence of nucleotides. For example, the polynucleotide “ATCG” may be chemically modified to “AT-5meC-G”. The same polynucleotide may be structurally modified from “ATCG” to “ATCCCG”. Here, the dinucleotide “CC” has been inserted, resulting in a structural modification to the polynucleotide.
  • the mmRNA of the present invention are distinguished from wild type mRNA in their functional and/or structural design features which serve to, as evidenced herein, overcome existing problems of effective polypeptide production using nucleic acid-based therapeutics.
  • FIG. 1 shows a representative polynucleotide primary construct 100 of the present invention.
  • the term “primary construct” or “primary mRNA construct” refers to a polynucleotide transcript which encodes one or more polypeptides of interest and which retains sufficient structural and/or chemical features to allow the polypeptide of interest encoded therein to be translated.
  • Primary constructs may be polynucleotides of the invention. When structurally or chemically modified, the primary construct may be referred to as an mmRNA.
  • the primary construct 100 here contains a first region of linked nucleotides 102 that is flanked by a first flanking region 104 and a second flaking region 106 .
  • the “first region” may be referred to as a “coding region” or “region encoding” or simply the “first region.”
  • This first region may include, but is not limited to, the encoded polypeptide of interest.
  • the polypeptide of interest may comprise at its 5 ′ terminus one or more signal sequences encoded by a signal sequence region 103 .
  • the flanking region 104 may comprise a region of linked nucleotides comprising one or more complete or incomplete 5′ UTRs sequences.
  • the flanking region 104 may also comprise a 5′ terminal cap 108 .
  • the second flanking region 106 may comprise a region of linked nucleotides comprising one or more complete or incomplete 3′ UTRs.
  • the flanking region 106 may also comprise a 3′ tailing sequence 110 .
  • first operational region 105 Bridging the 5′ terminus of the first region 102 and the first flanking region 104 is a first operational region 105 .
  • this operational region comprises a Start codon.
  • the operational region may alternatively comprise any translation initiation sequence or signal including a Start codon.
  • this operational region comprises a Stop codon.
  • the operational region may alternatively comprise any translation initiation sequence or signal including a Stop codon. According to the present invention, multiple serial stop codons may also be used.
  • the shortest length of the first region of the primary construct of the present invention can be the length of a nucleic acid sequence that is sufficient to encode for a dipeptide, a tripeptide, a tetrapeptide, a pentapeptide, a hexapeptide, a heptapeptide, an octapeptide, a nonapeptide, or a decapeptide.
  • the length may be sufficient to encode a peptide of 2-30 amino acids, e.g. 5-30, 10-30, 2-25, 5-25, 10-25, or 10-20 amino acids.
  • the length may be sufficient to encode for a peptide of at least 11, 12, 13, 14, 15, 17, 20, 25 or 30 amino acids, or a peptide that is no longer than 40 amino acids, e.g. no longer than 35, 30, 25, 20, 17, 15, 14, 13, 12, 11 or 10 amino acids.
  • the length of the first region encoding the polypeptide of interest of the present invention is greater than about 30 nucleotides in length (e.g., at least or greater than about 35, 40, 45, 50, 55, 60, 70, 80, 90, 100, 120, 140, 160, 180, 200, 250, 300, 350, 400, 450, 500, 600, 700, 800, 900, 1,000, 1,100, 1,200, 1,300, 1,400, 1,500, 1,600, 1,700, 1,800, 1,900, 2,000, 2,500, and 3,000, 4,000, 5,000, 6,000, 7,000, 8,000, 9,000, 10,000, 20,000, 30,000, 40,000, 50,000, 60,000, 70,000, 80,000, 90,000 or up to and including 100,000 nucleotides).
  • the “first region” may be referred to as a “coding region” or “region encoding” or simply the “first region.”
  • the polynucleotide, primary construct, or mmRNA includes from about 30 to about 100,000 nucleotides (e.g., from 30 to 50, from 30 to 100, from 30 to 250, from 30 to 500, from 30 to 1,000, from 30 to 1,500, from 30 to 3,000, from 30 to 5,000, from 30 to 7,000, from 30 to 10,000, from 30 to 25,000, from 30 to 50,000, from 30 to 70,000, from 100 to 250, from 100 to 500, from 100 to 1,000, from 100 to 1,500, from 100 to 3,000, from 100 to 5,000, from 100 to 7,000, from 100 to 10,000, from 100 to 25,000, from 100 to 50,000, from 100 to 70,000, from 100 to 100,000, from 500 to 1,000, from 500 to 1,500, from 500 to 2,000, from 500 to 3,000, from 500 to 5,000, from 500 to 7,000, from 500 to 10,000, from 500 to 25,000, from 500 to 50,000, from 500 to 70,000, from 500 to 100,000, from 1,000 to 1,500, from 1,000, from 500 to 2,000, from 500 to
  • the first and second flanking regions may range independently from 15-1,000 nucleotides in length (e.g., greater than 30, 40, 45, 50, 55, 60, 70, 80, 90, 100, 120, 140, 160, 180, 200, 250, 300, 350, 400, 450, 500, 600, 700, 800, and 900 nucleotides or at least 30, 40, 45, 50, 55, 60, 70, 80, 90, 100, 120, 140, 160, 180, 200, 250, 300, 350, 400, 450, 500, 600, 700, 800, 900, and 1,000 nucleotides).
  • 15-1,000 nucleotides in length e.g., greater than 30, 40, 45, 50, 55, 60, 70, 80, 90, 100, 120, 140, 160, 180, 200, 250, 300, 350, 400, 450, 500, 600, 700, 800, 900, and 1,000 nucleotides.
  • the tailing sequence may range from absent to 500 nucleotides in length (e.g., at least 60, 70, 80, 90, 120, 140, 160, 180, 200, 250, 300, 350, 400, 450, or 500 nucleotides).
  • the length may be determined in units of or as a function of polyA Binding Protein binding.
  • the polyA tail is long enough to bind at least 4 monomers of PolyA Binding Protein.
  • PolyA Binding Protein monomers bind to stretches of approximately 38 nucleotides. As such, it has been observed that polyA tails of about 80 nucleotides and 160 nucleotides are functional.
  • the capping region may comprise a single cap or a series of nucleotides forming the cap.
  • the capping region may be from 1 to 10, e.g. 2-9, 3-8, 4-7, 1-5, 5-10, or at least 2, or 10 or fewer nucleotides in length.
  • the cap is absent.
  • the first and second operational regions may range from 3 to 40, e.g., 5-30, 10-20, 15, or at least 4, or 30 or fewer nucleotides in length and may comprise, in addition to a Start and/or Stop codon, one or more signal and/or restriction sequences.
  • a primary construct or mmRNA may be cyclized, or concatemerized, to generate a translation competent molecule to assist interactions between poly-A binding proteins and 5′-end binding proteins.
  • the mechanism of cyclization or concatemerization may occur through at least 3 different routes: 1) chemical, 2) enzymatic, and 3) ribozyme catalyzed.
  • the newly formed 5′-/3′-linkage may be intramolecular or intermolecular.
  • the 5′-end and the 3′-end of the nucleic acid contain chemically reactive groups that, when close together, form a new covalent linkage between the 5′-end and the 3′-end of the molecule.
  • the 5′-end may contain an NHS-ester reactive group and the 3′-end may contain a 3′-amino-terminated nucleotide such that in an organic solvent the 3′-amino-terminated nucleotide on the 3′-end of a synthetic mRNA molecule will undergo a nucleophilic attack on the 5′—NHS-ester moiety forming a new 5′-/3′-amide bond.
  • T4 RNA ligase may be used to enzymatically link a 5′-phosphorylated nucleic acid molecule to the 3′-hydroxyl group of a nucleic acid forming a new phosphorodiester linkage.
  • 1 ⁇ g of a nucleic acid molecule is incubated at 37° C. for 1 hour with 1-10 units of T4 RNA ligase (New England Biolabs, Ipswich, Mass.) according to the manufacturer's protocol.
  • the ligation reaction may occur in the presence of a split oligonucleotide capable of base-pairing with both the 5′- and 3′-region in juxtaposition to assist the enzymatic ligation reaction.
  • either the 5′- or 3′-end of the cDNA template encodes a ligase ribozyme sequence such that during in vitro transcription, the resultant nucleic acid molecule can contain an active ribozyme sequence capable of ligating the 5′-end of a nucleic acid molecule to the 3′-end of a nucleic acid molecule.
  • the ligase ribozyme may be derived from the Group I Intron, Group I Intron, Hepatitis Delta Virus, Hairpin ribozyme or may be selected by SELEX (systematic evolution of ligands by exponential enrichment).
  • the ribozyme ligase reaction may take 1 to 24 hours at temperatures between 0 and 37° C.
  • multiple distinct polynucleotides, primary constructs or mmRNA may be linked together through the 3′-end using nucleotides which are modified at the 3′-terminus.
  • Chemical conjugation may be used to control the stoichiometry of delivery into cells.
  • the glyoxylate cycle enzymes, isocitrate lyase and malate synthase may be supplied into HepG2 cells at a 1:1 ratio to alter cellular fatty acid metabolism.
  • This ratio may be controlled by chemically linking polynucleotides, primary constructs or mmRNA using a 3′-azido terminated nucleotide on one polynucleotide, primary construct or mmRNA species and a C5-ethynyl or alkynyl-containing nucleotide on the opposite polynucleotide, primary construct or mmRNA species.
  • the modified nucleotide is added post-transcriptionally using terminal transferase (New England Biolabs, Ipswich, Mass.) according to the manufacturer's protocol.
  • the two polynucleotide, primary construct or mmRNA species may be combined in an aqueous solution, in the presence or absence of copper, to form a new covalent linkage via a click chemistry mechanism as described in the literature.
  • more than two polynucleotides may be linked together using a functionalized linker molecule.
  • a functionalized saccharide molecule may be chemically modified to contain multiple chemical reactive groups (SH—, NH 2 —, N 3 , etc. . . . ) to react with the cognate moiety on a 3′-functionalized mRNA molecule (i.e., a 3′-maleimide ester, 3′—NHS-ester, alkynyl).
  • the number of reactive groups on the modified saccharide can be controlled in a stoichiometric fashion to directly control the stoichiometric ratio of conjugated polynucleotide, primary construct or mmRNA.
  • primary constructs or mmRNA of the present invention can be designed to be conjugated to other polynucleotides, dyes, intercalating agents (e.g. acridines), cross-linkers (e.g. psoralene, mitomycin C), porphyrins (TPPC4, texaphyrin, Sapphyrin), polycyclic aromatic hydrocarbons (e.g., phenazine, dihydrophenazine), artificial endonucleases (e.g.
  • intercalating agents e.g. acridines
  • cross-linkers e.g. psoralene, mitomycin C
  • porphyrins TPPC4, texaphyrin, Sapphyrin
  • polycyclic aromatic hydrocarbons e.g., phenazine, dihydrophenazine
  • artificial endonucleases e.g.
  • alkylating agents phosphate, amino, mercapto, PEG (e.g., PEG-40K), MPEG, [MPEG] 2 , polyamino, alkyl, substituted alkyl, radiolabeled markers, enzymes, haptens (e.g.
  • biotin e.g., aspirin, vitamin E, folic acid
  • transport/absorption facilitators e.g., aspirin, vitamin E, folic acid
  • synthetic ribonucleases proteins, e.g., glycoproteins, or peptides, e.g., molecules having a specific affinity for a co-ligand, or antibodies e.g., an antibody, that binds to a specified cell type such as a cancer cell, endothelial cell, or bone cell, hormones and hormone receptors, non-peptidic species, such as lipids, lectins, carbohydrates, vitamins, cofactors, or a drug.
  • a specified cell type such as a cancer cell, endothelial cell, or bone cell
  • hormones and hormone receptors non-peptidic species, such as lipids, lectins, carbohydrates, vitamins, cofactors, or a drug.
  • Conjugation may result in increased stability and/or half life and may be particularly useful in targeting the polynucleotides, primary constructs or mmRNA to specific sites in the cell, tissue or organism.
  • the mmRNA or primary constructs may be administered with, or further encode one or more of RNAi agents, siRNAs, shRNAs, miRNAs, miRNA binding sites, antisense RNAs, ribozymes, catalytic DNA, tRNA, RNAs that induce triple helix formation, aptamers or vectors, and the like.
  • RNAi agents siRNAs, shRNAs, miRNAs, miRNA binding sites, antisense RNAs, ribozymes, catalytic DNA, tRNA, RNAs that induce triple helix formation, aptamers or vectors, and the like.
  • bifunctional polynucleotides e.g., bifunctional primary constructs or bifunctional mmRNA.
  • bifunctional polynucleotides are those having or capable of at least two functions. These molecules may also by convention be referred to as multi-functional.
  • bifunctional polynucleotides may be encoded by the RNA (the function may not manifest until the encoded product is translated) or may be a property of the polynucleotide itself. It may be structural or chemical.
  • Bifunctional modified polynucleotides may comprise a function that is covalently or electrostatically associated with the polynucleotides. Further, the two functions may be provided in the context of a complex of a mmRNA and another molecule.
  • Bifunctional polynucleotides may encode peptides which are anti-proliferative. These peptides may be linear, cyclic, constrained or random coil. They may function as aptamers, signaling molecules, ligands or mimics or mimetics thereof. Anti-proliferative peptides may, as translated, be from 3 to 50 amino acids in length. They may be 5-40, 10-30, or approximately 15 amino acids long. They may be single chain, multichain or branched and may form complexes, aggregates or any multi-unit structure once translated.
  • noncoding region may be the “first region” of the primary construct.
  • the noncoding region may be a region other than the first region.
  • Such molecules are generally not translated, but can exert an effect on protein production by one or more of binding to and sequestering one or more translational machinery components such as a ribosomal protein or a transfer RNA (tRNA), thereby effectively reducing protein expression in the cell or modulating one or more pathways or cascades in a cell which in turn alters protein levels.
  • translational machinery components such as a ribosomal protein or a transfer RNA (tRNA)
  • the polynucleotide or primary construct may contain or encode one or more long noncoding RNA (1ncRNA, or lincRNA) or portion thereof, a small nucleolar RNA (sno-RNA), micro RNA (miRNA), small interfering RNA (siRNA) or Piwi-interacting RNA (piRNA).
  • RNA long noncoding RNA
  • miRNA micro RNA
  • siRNA small interfering RNA
  • piRNA Piwi-interacting RNA
  • the primary construct is designed to encode one or more polypeptides of interest or fragments thereof.
  • a polypeptide of interest may include, but is not limited to, whole polypeptides, a plurality of polypeptides or fragments of polypeptides, which independently may be encoded by one or more nucleic acids, a plurality of nucleic acids, fragments of nucleic acids or variants of any of the aforementioned.
  • the term “polypeptides of interest” refer to any polypeptide which is selected to be encoded in the primary construct of the present invention.
  • polypeptide means a polymer of amino acid residues (natural or unnatural) linked together most often by peptide bonds.
  • polypeptides refers to proteins, polypeptides, and peptides of any size, structure, or function.
  • polypeptide encoded is smaller than about 50 amino acids and the polypeptide is then termed a peptide. If the polypeptide is a peptide, it will be at least about 2, 3, 4, or at least 5 amino acid residues long.
  • polypeptides include gene products, naturally occurring polypeptides, synthetic polypeptides, homologs, orthologs, paralogs, fragments and other equivalents, variants, and analogs of the foregoing.
  • a polypeptide may be a single molecule or may be a multi-molecular complex such as a dimer, trimer or tetramer.
  • polypeptides may also comprise single chain or multichain polypeptides such as antibodies or insulin and may be associated or linked. Most commonly disulfide linkages are found in multichain polypeptides.
  • polypeptide may also apply to amino acid polymers in which one or more amino acid residues are an artificial chemical analogue of a corresponding naturally occurring amino acid.
  • polypeptide variant refers to molecules which differ in their amino acid sequence from a native or reference sequence.
  • the amino acid sequence variants may possess substitutions, deletions, and/or insertions at certain positions within the amino acid sequence, as compared to a native or reference sequence.
  • variants will possess at least about 50% identity (homology) to a native or reference sequence, and preferably, they will be at least about 80%, more preferably at least about 90% identical (homologous) to a native or reference sequence.
  • variant mimics are provided.
  • the term “variant mimic” is one which contains one or more amino acids which would mimic an activated sequence.
  • glutamate may serve as a mimic for phosphoro-threonine and/or phosphoro-serine.
  • variant mimics may result in deactivation or in an inactivated product containing the mimic, e.g., phenylalanine may act as an inactivating substitution for tyrosine; or alanine may act as an inactivating substitution for serine.
  • “Homology” as it applies to amino acid sequences is defined as the percentage of residues in the candidate amino acid sequence that are identical with the residues in the amino acid sequence of a second sequence after aligning the sequences and introducing gaps, if necessary, to achieve the maximum percent homology. Methods and computer programs for the alignment are well known in the art. It is understood that homology depends on a calculation of percent identity but may differ in value due to gaps and penalties introduced in the calculation.
  • homologs as it applies to polypeptide sequences means the corresponding sequence of other species having substantial identity to a second sequence of a second species.
  • Analogs is meant to include polypeptide variants which differ by one or more amino acid alterations, e.g., substitutions, additions or deletions of amino acid residues that still maintain one or more of the properties of the parent or starting polypeptide.
  • compositions which are polypeptide based including variants and derivatives. These include substitutional, insertional, deletion and covalent variants and derivatives.
  • derivative is used synonymously with the term “variant” but generally refers to a molecule that has been modified and/or changed in any way relative to a reference molecule or starting molecule.
  • mmRNA encoding polypeptides containing substitutions, insertions and/or additions, deletions and covalent modifications with respect to reference sequences, in particular the polypeptide sequences disclosed herein are included within the scope of this invention.
  • sequence tags or amino acids such as one or more lysines
  • Sequence tags can be used for peptide purification or localization.
  • Lysines can be used to increase peptide solubility or to allow for biotinylation.
  • amino acid residues located at the carboxy and amino terminal regions of the amino acid sequence of a peptide or protein may optionally be deleted providing for truncated sequences.
  • Certain amino acids e.g., C-terminal or N-terminal residues
  • substitutional variants when referring to polypeptides are those that have at least one amino acid residue in a native or starting sequence removed and a different amino acid inserted in its place at the same position. The substitutions may be single, where only one amino acid in the molecule has been substituted, or they may be multiple, where two or more amino acids have been substituted in the same molecule.
  • conservative amino acid substitution refers to the substitution of an amino acid that is normally present in the sequence with a different amino acid of similar size, charge, or polarity.
  • conservative substitutions include the substitution of a non-polar (hydrophobic) residue such as isoleucine, valine and leucine for another non-polar residue.
  • conservative substitutions include the substitution of one polar (hydrophilic) residue for another such as between arginine and lysine, between glutamine and asparagine, and between glycine and serine.
  • substitution of a basic residue such as lysine, arginine or histidine for another, or the substitution of one acidic residue such as aspartic acid or glutamic acid for another acidic residue are additional examples of conservative substitutions.
  • non-conservative substitutions include the substitution of a non-polar (hydrophobic) amino acid residue such as isoleucine, valine, leucine, alanine, methionine for a polar (hydrophilic) residue such as cysteine, glutamine, glutamic acid or lysine and/or a polar residue for a non-polar residue.
  • “Insertional variants” when referring to polypeptides are those with one or more amino acids inserted immediately adjacent to an amino acid at a particular position in a native or starting sequence. “Immediately adjacent” to an amino acid means connected to either the alpha-carboxy or alpha-amino functional group of the amino acid.
  • “Deletional variants” when referring to polypeptides are those with one or more amino acids in the native or starting amino acid sequence removed. Ordinarily, deletional variants will have one or more amino acids deleted in a particular region of the molecule.
  • Covalent derivatives when referring to polypeptides include modifications of a native or starting protein with an organic proteinaceous or non-proteinaceous derivatizing agent, and/or post-translational modifications. Covalent modifications are traditionally introduced by reacting targeted amino acid residues of the protein with an organic derivatizing agent that is capable of reacting with selected side-chains or terminal residues, or by harnessing mechanisms of post-translational modifications that function in selected recombinant host cells. The resultant covalent derivatives are useful in programs directed at identifying residues important for biological activity, for immunoassays, or for the preparation of anti-protein antibodies for immunoaffinity purification of the recombinant glycoprotein. Such modifications are within the ordinary skill in the art and are performed without undue experimentation.
  • Certain post-translational modifications are the result of the action of recombinant host cells on the expressed polypeptide.
  • Glutaminyl and asparaginyl residues are frequently post-translationally deamidated to the corresponding glutamyl and aspartyl residues. Alternatively, these residues are deamidated under mildly acidic conditions. Either form of these residues may be present in the polypeptides produced in accordance with the present invention.
  • post-translational modifications include hydroxylation of proline and lysine, phosphorylation of hydroxyl groups of seryl or threonyl residues, methylation of the alpha-amino groups of lysine, arginine, and histidine side chains (T. E. Creighton, Proteins: Structure and Molecular Properties, W.H. Freeman & Co., San Francisco, pp. 79-86 (1983)).
  • Features when referring to polypeptides are defined as distinct amino acid sequence-based components of a molecule.
  • Features of the polypeptides encoded by the mmRNA of the present invention include surface manifestations, local conformational shape, folds, loops, half-loops, domains, half-domains, sites, termini or any combination thereof.
  • surface manifestation refers to a polypeptide based component of a protein appearing on an outermost surface.
  • local conformational shape means a polypeptide based structural manifestation of a protein which is located within a definable space of the protein.
  • fold refers to the resultant conformation of an amino acid sequence upon energy minimization.
  • a fold may occur at the secondary or tertiary level of the folding process.
  • secondary level folds include beta sheets and alpha helices.
  • tertiary folds include domains and regions formed due to aggregation or separation of energetic forces. Regions formed in this way include hydrophobic and hydrophilic pockets, and the like.
  • turn as it relates to protein conformation means a bend which alters the direction of the backbone of a peptide or polypeptide and may involve one, two, three or more amino acid residues.
  • loop refers to a structural feature of a polypeptide which may serve to reverse the direction of the backbone of a peptide or polypeptide. Where the loop is found in a polypeptide and only alters the direction of the backbone, it may comprise four or more amino acid residues. Oliva et al. have identified at least 5 classes of protein loops (J. Mol. Biol 266 (4): 814-830; 1997). Loops may be open or closed. Closed loops or “cyclic” loops may comprise 2, 3, 4, 5, 6, 7, 8, 9, 10 or more amino acids between the bridging moieties.
  • Such bridging moieties may comprise a cysteine-cysteine bridge (Cys-Cys) typical in polypeptides having disulfide bridges or alternatively bridging moieties may be non-protein based such as the dibromozylyl agents used herein.
  • Cys-Cys cysteine-cysteine bridge
  • bridging moieties may be non-protein based such as the dibromozylyl agents used herein.
  • domain refers to a motif of a polypeptide having one or more identifiable structural or functional characteristics or properties (e.g., binding capacity, serving as a site for protein-protein interactions).
  • sub-domains may be identified within domains or half-domains, these subdomains possessing less than all of the structural or functional properties identified in the domains or half domains from which they were derived. It is also understood that the amino acids that comprise any of the domain types herein need not be contiguous along the backbone of the polypeptide (i.e., nonadjacent amino acids may fold structurally to produce a domain, half-domain or subdomain).
  • site As used herein when referring to polypeptides the terms “site” as it pertains to amino acid based embodiments is used synonymously with “amino acid residue” and “amino acid side chain.”
  • a site represents a position within a peptide or polypeptide that may be modified, manipulated, altered, derivatized or varied within the polypeptide based molecules of the present invention.
  • terminal refers to an extremity of a peptide or polypeptide. Such extremity is not limited only to the first or final site of the peptide or polypeptide but may include additional amino acids in the terminal regions.
  • the polypeptide based molecules of the present invention may be characterized as having both an N-terminus (terminated by an amino acid with a free amino group (NH2)) and a C-terminus (terminated by an amino acid with a free carboxyl group (COOH)).
  • Proteins of the invention are in some cases made up of multiple polypeptide chains brought together by disulfide bonds or by non-covalent forces (multimers, oligomers). These sorts of proteins will have multiple N- and C-termini.
  • the termini of the polypeptides may be modified such that they begin or end, as the case may be, with a non-polypeptide based moiety such as an organic conjugate.
  • any of the features have been identified or defined as a desired component of a polypeptide to be encoded by the primary construct or mmRNA of the invention, any of several manipulations and/or modifications of these features may be performed by moving, swapping, inverting, deleting, randomizing or duplicating. Furthermore, it is understood that manipulation of features may result in the same outcome as a modification to the molecules of the invention. For example, a manipulation which involved deleting a domain would result in the alteration of the length of a molecule just as modification of a nucleic acid to encode less than a full length molecule would.
  • Modifications and manipulations can be accomplished by methods known in the art such as, but not limited to, site directed mutagenesis.
  • the resulting modified molecules may then be tested for activity using in vitro or in vivo assays such as those described herein or any other suitable screening assay known in the art.
  • the polypeptides may comprise a consensus sequence which is discovered through rounds of experimentation.
  • a “consensus” sequence is a single sequence which represents a collective population of sequences allowing for variability at one or more sites.
  • protein fragments, functional protein domains, and homologous proteins are also considered to be within the scope of polypeptides of interest of this invention.
  • any protein fragment meaning a polypeptide sequence at least one amino acid residue shorter than a reference polypeptide sequence but otherwise identical
  • a reference protein 10 20, 30, 40, 50, 60, 70, 80, 90, 100 or greater than 100 amino acids in length.
  • any protein that includes a stretch of about 20, about 30, about 40, about 50, or about 100 amino acids which are about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 95%, or about 100% identical to any of the sequences described herein can be utilized in accordance with the invention.
  • a polypeptide to be utilized in accordance with the invention includes 2, 3, 4, 5, 6, 7, 8, 9, 10, or more mutations as shown in any of the sequences provided or referenced herein.
  • the primary constructs or mmRNA of the present invention may be designed to encode polypeptides of interest selected from any of several target categories including, but not limited to, biologics, antibodies, vaccines, therapeutic proteins or peptides, cell penetrating peptides, secreted proteins, plasma membrane proteins, cytoplasmic or cytoskeletal proteins, intracellular membrane bound proteins, nuclear proteins, proteins associated with human disease, targeting moieties or those proteins encoded by the human genome for which no therapeutic indication has been identified but which nonetheless have utility in areas of research and discovery.
  • target categories including, but not limited to, biologics, antibodies, vaccines, therapeutic proteins or peptides, cell penetrating peptides, secreted proteins, plasma membrane proteins, cytoplasmic or cytoskeletal proteins, intracellular membrane bound proteins, nuclear proteins, proteins associated with human disease, targeting moieties or those proteins encoded by the human genome for which no therapeutic indication has been identified but which nonetheless have utility in areas of research and discovery.
  • primary constructs or mmRNA may encode variant polypeptides which have a certain identity with a reference polypeptide sequence.
  • a “reference polypeptide sequence” refers to a starting polypeptide sequence. Reference sequences may be wild type sequences or any sequence to which reference is made in the design of another sequence.
  • a “reference polypeptide sequence” may, e.g., be any one of SEQ ID NOs: 35608-71005 as disclosed herein, e.g., any of SEQ ID NOs 35608, 35609, 35610, 35611, 35612, 35613, 35614, 35615, 35616, 35617, 35618, 35619, 35620, 35621, 35622, 35623, 35624, 35625, 35626, 35627, 35628, 35629, 35630, 35631, 35632, 35633, 35634, 35635, 35636, 35637, 35638, 35639, 35640, 35641, 35642, 35643, 35644, 35645, 35646, 35647, 35648, 35649, 35650, 35651, 35652, 35653, 35654, 35655, 35656, 35657, 35658, 35659, 35660, 35661, 35662, 35663, 35664, 35665, 35666, 35667, 3566
  • identity refers to a relationship between the sequences of two or more peptides, as determined by comparing the sequences. In the art, identity also means the degree of sequence relatedness between peptides, as determined by the number of matches between strings of two or more amino acid residues. Identity measures the percent of identical matches between the smaller of two or more sequences with gap alignments (if any) addressed by a particular mathematical model or computer program (i.e., “algorithms”). Identity of related peptides can be readily calculated by known methods. Such methods include, but are not limited to, those described in Computational Molecular Biology, Lesk, A.
  • the polypeptide variant may have the same or a similar activity as the reference polypeptide.
  • the variant may have an altered activity (e.g., increased or decreased) relative to a reference polypeptide.
  • variants of a particular polynucleotide or polypeptide of the invention will have at least about 40%, 45%, 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99% but less than 100% sequence identity to that particular reference polynucleotide or polypeptide as determined by sequence alignment programs and parameters described herein and known to those skilled in the art.
  • Such tools for alignment include those of the BLAST suite (Stephen F. Altschul, Thomas L. Madden, Alejandro A. Schulffer, Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997), “Gapped BLAST and PSI-BLAST: a new generation of protein database search programs”, Nucleic Acids Res. 25:3389-3402.) Other tools are described herein, specifically in the definition of “Identity.”
  • BLAST algorithm Default parameters in the BLAST algorithm include, for example, an expect threshold of 10, Word size of 28, Match/Mismatch Scores 1, -2, Gap costs Linear. Any filter can be applied as well as a selection for species specific repeats, e.g., Homo sapiens.
  • the polynucleotides, primary constructs or mmRNA disclosed herein may encode one or more biologics.
  • a “biologic” is a polypeptide-based molecule produced by the methods provided herein and which may be used to treat, cure, mitigate, prevent, or diagnose a serious or life-threatening disease or medical condition.
  • Biologics include, but are not limited to, allergenic extracts (e.g. for allergy shots and tests), blood components, gene therapy products, human tissue or cellular products used in transplantation, vaccines, monoclonal antibodies, cytokines, growth factors, enzymes, thrombolytics, and immunomodulators, among others.
  • one or more biologics currently being marketed or in development may be encoded by the polynucleotides, primary constructs or mmRNA of the present invention. While not wishing to be bound by theory, it is believed that incorporation of the encoding polynucleotides of a known biologic into the primary constructs or mmRNA of the invention will result in improved therapeutic efficacy due at least in part to the specificity, purity and/or selectivity of the construct designs.
  • the primary constructs or mmRNA disclosed herein may encode one or more antibodies or fragments thereof.
  • antibody includes monoclonal antibodies (including full length antibodies which have an immunoglobulin Fc region), antibody compositions with polyepitopic specificity, multispecific antibodies (e.g., bispecific antibodies, diabodies, and single-chain molecules), as well as antibody fragments.
  • immunoglobulin Ig is used interchangeably with “antibody” herein.
  • the term “monoclonal antibody” refers to an antibody obtained from a population of substantially homogeneous antibodies, i.e., the individual antibodies comprising the population are identical except for possible naturally occurring mutations and/or post-translation modifications (e.g., isomerizations, amidations) that may be present in minor amounts. Monoclonal antibodies are highly specific, being directed against a single antigenic site.
  • the monoclonal antibodies herein specifically include “chimeric” antibodies (immunoglobulins) in which a portion of the heavy and/or light chain is identical with or homologous to corresponding sequences in antibodies derived from a particular species or belonging to a particular antibody class or subclass, while the remainder of the chain(s) is(are) identical with or homologous to corresponding sequences in antibodies derived from another species or belonging to another antibody class or subclass, as well as fragments of such antibodies, so long as they exhibit the desired biological activity.
  • chimeric antibodies immunoglobulins in which a portion of the heavy and/or light chain is identical with or homologous to corresponding sequences in antibodies derived from a particular species or belonging to a particular antibody class or subclass, while the remainder of the chain(s) is(are) identical with or homologous to corresponding sequences in antibodies derived from another species or belonging to another antibody class or subclass, as well as fragments of such antibodies, so long as they exhibit the desired biological activity.
  • Chimeric antibodies of interest herein include, but are not limited to, “primatized” antibodies comprising variable domain antigen-binding sequences derived from a non-human primate (e.g., Old World Monkey, Ape etc.) and human constant region sequences.
  • a non-human primate e.g., Old World Monkey, Ape etc.
  • antibody fragment comprises a portion of an intact antibody, preferably the antigen binding and/or the variable region of the intact antibody.
  • antibody fragments include Fab, Fab′, F(ab′) 2 and Fv fragments; diabodies; linear antibodies; nanobodies; single-chain antibody molecules and multispecific antibodies formed from antibody fragments.
  • any of the five classes of immunoglobulins, IgA, IgD, IgE, IgG and IgM, may be encoded by the mmRNA of the invention, including the heavy chains designated alpha, delta, epsilon, gamma and mu, respectively. Also included are polynucleotide sequences encoding the subclasses, gamma and mu. Hence any of the subclasses of antibodies may be encoded in part or in whole and include the following subclasses: IgG1, IgG2, IgG3, IgG4, IgA1 and IgA2.
  • one or more antibodies or fragments currently being marketed or in development may be encoded by the polynucleotides, primary constructs or mmRNA of the present invention. While not wishing to be bound by theory, it is believed that incorporation into the primary constructs of the invention will result in improved therapeutic efficacy due at least in part to the specificity, purity and selectivity of the mmRNA designs.
  • Antibodies encoded in the polynucleotides, primary constructs or mmRNA of the invention may be utilized to treat conditions or diseases in many therapeutic areas such as, but not limited to, blood, cardiovascular, CNS, poisoning (including antivenoms), dermatology, endocrinology, gastrointestinal, medical imaging, musculoskeletal, oncology, immunology, respiratory, sensory and anti-infective.
  • primary constructs or mmRNA disclosed herein may encode monoclonal antibodies and/or variants thereof. Variants of antibodies may also include, but are not limited to, substitutional variants, conservative amino acid substitution, insertional variants, deletional variants and/or covalent derivatives.
  • the primary construct and/or mmRNA disclosed herein may encode an immunoglobulin Fc region.
  • the primary constructs and/or mmRNA may encode a variant immunoglobulin Fc region.
  • the primary constructs and/or mmRNA may encode an antibody having a variant immunoglobulin Fc region as described in U.S. Pat. No. 8,217,147 herein incorporated by reference in its entirety.
  • the primary constructs or mmRNA disclosed herein may encode one or more vaccines.
  • a “vaccine” is a biological preparation that improves immunity to a particular disease or infectious agent.
  • one or more vaccines currently being marketed or in development may be encoded by the polynucleotides, primary constructs or mmRNA of the present invention. While not wishing to be bound by theory, it is believed that incorporation into the primary constructs or mmRNA of the invention will result in improved therapeutic efficacy due at least in part to the specificity, purity and selectivity of the construct designs.
  • Vaccines encoded in the polynucleotides, primary constructs or mmRNA of the invention may be utilized to treat conditions or diseases in many therapeutic areas such as, but not limited to, cardiovascular, CNS, dermatology, endocrinology, oncology, immunology, respiratory, and anti-infective.
  • the primary constructs or mmRNA disclosed herein may encode one or more validated or “in testing” therapeutic proteins or peptides.
  • one or more therapeutic proteins or peptides currently being marketed or in development may be encoded by the polynucleotides, primary constructs or mmRNA of the present invention. While not wishing to be bound by theory, it is believed that incorporation into the primary constructs or mmRNA of the invention will result in improved therapeutic efficacy due at least in part to the specificity, purity and selectivity of the construct designs.
  • Therapeutic proteins and peptides encoded in the polynucleotides, primary constructs or mmRNA of the invention may be utilized to treat conditions or diseases in many therapeutic areas such as, but not limited to, blood, cardiovascular, CNS, poisoning (including antivenoms), dermatology, endocrinology, genetic, genitourinary, gastrointestinal, musculoskeletal, oncology, and immunology, respiratory, sensory and anti-infective.
  • the primary constructs or mmRNA disclosed herein may encode one or more cell-penetrating polypeptides.
  • “cell-penetrating polypeptide” or CPP refers to a polypeptide which may facilitate the cellular uptake of molecules.
  • a cell-penetrating polypeptide of the present invention may contain one or more detectable labels.
  • the polypeptides may be partially labeled or completely labeled throughout.
  • the polynucleotide, primary construct or mmRNA may encode the detectable label completely, partially or not at all.
  • the cell-penetrating peptide may also include a signal sequence.
  • a “signal sequence” refers to a sequence of amino acid residues bound at the amino terminus of a nascent protein during protein translation.
  • the signal sequence may be used to signal the secretion of the cell-penetrating polypeptide.
  • the polynucleotides, primary constructs or mmRNA may also encode a fusion protein.
  • the fusion protein may be created by operably linking a charged protein to a therapeutic protein.
  • “operably linked” refers to the therapeutic protein and the charged protein being connected in such a way to permit the expression of the complex when introduced into the cell.
  • “charged protein” refers to a protein that carries a positive, negative or overall neutral electrical charge.
  • the therapeutic protein may be covalently linked to the charged protein in the formation of the fusion protein.
  • the ratio of surface charge to total or surface amino acids may be approximately 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8 or 0.9.
  • the cell-penetrating polypeptide encoded by the polynucleotides, primary constructs or mmRNA may form a complex after being translated.
  • the complex may comprise a charged protein linked, e.g. covalently linked, to the cell-penetrating polypeptide.
  • “Therapeutic protein” refers to a protein that, when administered to a cell has a therapeutic, diagnostic, and/or prophylactic effect and/or elicits a desired biological and/or pharmacological effect.
  • the cell-penetrating polypeptide may comprise a first domain and a second domain.
  • the first domain may comprise a supercharged polypeptide.
  • the second domain may comprise a protein-binding partner.
  • protein-binding partner includes, but is not limited to, antibodies and functional fragments thereof, scaffold proteins, or peptides.
  • the cell-penetrating polypeptide may further comprise an intracellular binding partner for the protein-binding partner.
  • the cell-penetrating polypeptide may be capable of being secreted from a cell where the polynucleotide, primary construct or mmRNA may be introduced.
  • the cell-penetrating polypeptide may also be capable of penetrating the first cell.
  • the cell-penetrating polypeptide is capable of penetrating a second cell.
  • the second cell may be from the same area as the first cell, or it may be from a different area.
  • the area may include, but is not limited to, tissues and organs.
  • the second cell may also be proximal or distal to the first cell.
  • the polynucleotides, primary constructs or mmRNA may encode a cell-penetrating polypeptide which may comprise a protein-binding partner.
  • the protein binding partner may include, but is not limited to, an antibody, a supercharged antibody or a functional fragment.
  • the polynucleotides, primary constructs or mmRNA may be introduced into the cell where a cell-penetrating polypeptide comprising the protein-binding partner is introduced.
  • Each membrane-bounded compartment, or organelle contains different proteins essential for the function of the organelle.
  • the cell uses “sorting signals,” which are amino acid motifs located within the protein, to target proteins to particular cellular organelles.
  • sorting signal One type of sorting signal, called a signal sequence, a signal peptide, or a leader sequence, directs a class of proteins to an organelle called the endoplasmic reticulum (ER).
  • ER endoplasmic reticulum
  • Proteins targeted to the ER by a signal sequence can be released into the extracellular space as a secreted protein.
  • proteins residing on the cell membrane can also be secreted into the extracellular space by proteolytic cleavage of a “linker” holding the protein to the membrane.
  • the molecules of the present invention may be used to exploit the cellular trafficking described above.
  • polynucleotides, primary constructs or mmRNA are provided to express a secreted protein.
  • the secreted proteins may be selected from those described herein or those in US Patent Publication, 20100255574, the contents of which are incorporated herein by reference in their entirety.
  • these may be used in the manufacture of large quantities of valuable human gene products.
  • polynucleotides, primary constructs or mmRNA are provided to express a protein of the plasma membrane.
  • polynucleotides, primary constructs or mmRNA are provided to express a cytoplasmic or cytoskeletal protein.
  • polynucleotides, primary constructs or mmRNA are provided to express an intracellular membrane bound protein.
  • polynucleotides, primary constructs or mmRNA are provided to express a nuclear protein.
  • polynucleotides, primary constructs or mmRNA are provided to express a protein associated with human disease.
  • polynucleotides, primary constructs or mmRNA are provided to express a protein with a presently unknown therapeutic function.
  • polynucleotides, primary constructs or mmRNA are provided to express a targeting moiety.
  • a targeting moiety include a protein-binding partner or a receptor on the surface of the cell, which functions to target the cell to a specific tissue space or to interact with a specific moiety, either in vivo or in vitro.
  • Suitable protein-binding partners include, but are not limited to, antibodies and functional fragments thereof, scaffold proteins, or peptides.
  • polynucleotide, primary construct or mmRNA can be employed to direct the synthesis and extracellular localization of lipids, carbohydrates, or other biological moieties or biomolecules.
  • the polynucleotides, primary constructs or mmRNA may be used to produce polypeptide libraries. These libraries may arise from the production of a population of polynucleotides, primary constructs or mmRNA, each containing various structural or chemical modification designs.
  • a population of polynucleotides, primary constructs or mmRNA may comprise a plurality of encoded polypeptides, including but not limited to, an antibody or antibody fragment, protein binding partner, scaffold protein, and other polypeptides taught herein or known in the art.
  • the polynucleotides are primary constructs of the present invention, including mmRNA which may be suitable for direct introduction into a target cell or culture which in turn may synthesize the encoded polypeptides.
  • multiple variants of a protein may be produced and tested to determine the best variant in terms of pharmacokinetics, stability, biocompatibility, and/or biological activity, or a biophysical property such as expression level.
  • a library may contain 10, 10 2 , 10 3 , 10 4 , 10 5 , 10 6 , 10 7 , 10 8 , 10 9 , or over 10 9 possible variants (including, but not limited to, substitutions, deletions of one or more residues, and insertion of one or more residues).
  • the polynucleotides, primary constructs and mmRNA of the present invention may be designed to encode on or more antimicrobial peptides (AMP) or antiviral peptides (AVP).
  • AMPs and AVPs have been isolated and described from a wide range of animals such as, but not limited to, microorganisms, invertebrates, plants, amphibians, birds, fish, and mammals (Wang et al., Nucleic Acids Res. 2009; 37 (Database issue):D933-7).
  • anti-microbial polypeptides are described in Antimicrobial Peptide Database (http://aps.unmc.edu/AP/main.php; Wang et al., Nucleic Acids Res.
  • the anti-microbial polypeptides described herein may block cell fusion and/or viral entry by one or more enveloped viruses (e.g., HIV, HCV).
  • the anti-microbial polypeptide can comprise or consist of a synthetic peptide corresponding to a region, e.g., a consecutive sequence of at least about 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55, or 60 amino acids of the transmembrane subunit of a viral envelope protein, e.g., HIV-1 gp120 or gp41.
  • the amino acid and nucleotide sequences of HIV-1 gp120 or gp41 are described in, e.g., Kuiken et al., (2008). “HIV Sequence Compendium,” Los Alamos National Laboratory.
  • the anti-microbial polypeptide may have at least about 75%, 80%, 85%, 90%, 95%, 100% sequence homology to the corresponding viral protein sequence. In some embodiments, the anti-microbial polypeptide may have at least about 75%, 80%, 85%, 90%, 95%, or 100% sequence homology to the corresponding viral protein sequence.
  • the anti-microbial polypeptide may comprise or consist of a synthetic peptide corresponding to a region, e.g., a consecutive sequence of at least about 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55, or 60 amino acids of the binding domain of a capsid binding protein.
  • the anti-microbial polypeptide may have at least about 75%, 80%, 85%, 90%, 95%, or 100% sequence homology to the corresponding sequence of the capsid binding protein.
  • the anti-microbial polypeptides described herein may block protease dimerization and inhibit cleavage of viral proproteins (e.g., HIV Gag-pol processing) into functional proteins thereby preventing release of one or more enveloped viruses (e.g., HIV, HCV).
  • the anti-microbial polypeptide may have at least about 75%, 80%, 85%, 90%, 95%, 100% sequence homology to the corresponding viral protein sequence.
  • the anti-microbial polypeptide can comprise or consist of a synthetic peptide corresponding to a region, e.g., a consecutive sequence of at least about 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55, or 60 amino acids of the binding domain of a protease binding protein.
  • the anti-microbial polypeptide may have at least about 75%, 80%, 85%, 90%, 95%, 100% sequence homology to the corresponding sequence of the protease binding protein.
  • the anti-microbial polypeptides described herein can include an in vitro-evolved polypeptide directed against a viral pathogen.
  • AMPs Anti-microbial polypeptides
  • AMPs are small peptides of variable length, sequence and structure with broad spectrum activity against a wide range of microorganisms including, but not limited to, bacteria, viruses, fungi, protozoa, parasites, prions, and tumor/cancer cells.
  • AMPs have broad-spectrum of rapid onset of killing activities, with potentially low levels of induced resistance and concomitant broad anti-inflammatory effects.
  • the anti-microbial polypeptide (e.g., an anti-bacterial polypeptide) may be under 10 kDa, e.g., under 8 kDa, 6 kDa, 4 kDa, 2 kDa, or 1 kDa.
  • the anti-microbial polypeptide (e.g., an anti-bacterial polypeptide) consists of from about 6 to about 100 amino acids, e.g., from about 6 to about 75 amino acids, about 6 to about 50 amino acids, about 6 to about 25 amino acids, about 25 to about 100 amino acids, about 50 to about 100 amino acids, or about 75 to about 100 amino acids.
  • the anti-microbial polypeptide (e.g., an anti-bacterial polypeptide) may consist of from about 15 to about 45 amino acids. In some embodiments, the anti-microbial polypeptide (e.g., an anti-bacterial polypeptide) is substantially cationic.
  • the anti-microbial polypeptide may be substantially amphipathic. In certain embodiments, the anti-microbial polypeptide (e.g., an anti-bacterial polypeptide) may be substantially cationic and amphipathic. In some embodiments, the anti-microbial polypeptide (e.g., an anti-bacterial polypeptide) may be cytostatic to a Gram-positive bacterium. In some embodiments, the anti-microbial polypeptide (e.g., an anti-bacterial polypeptide) may be cytotoxic to a Gram-positive bacterium.
  • the anti-microbial polypeptide may be cytostatic and cytotoxic to a Gram-positive bacterium. In some embodiments, the anti-microbial polypeptide (e.g., an anti-bacterial polypeptide) may be cytostatic to a Gram-negative bacterium. In some embodiments, the anti-microbial polypeptide (e.g., an anti-bacterial polypeptide) may be cytotoxic to a Gram-negative bacterium. In some embodiments, the anti-microbial polypeptide (e.g., an anti-bacterial polypeptide) may be cytostatic and cytotoxic to a Gram-positive bacterium.
  • the anti-microbial polypeptide may be cytostatic to a virus, fungus, protozoan, parasite, prion, or a combination thereof. In some embodiments, the anti-microbial polypeptide may be cytotoxic to a virus, fungus, protozoan, parasite, prion, or a combination thereof. In certain embodiments, the anti-microbial polypeptide may be cytostatic and cytotoxic to a virus, fungus, protozoan, parasite, prion, or a combination thereof. In some embodiments, the anti-microbial polypeptide may be cytotoxic to a tumor or cancer cell (e.g., a human tumor and/or cancer cell).
  • a tumor or cancer cell e.g., a human tumor and/or cancer cell.
  • the anti-microbial polypeptide may be cytostatic to a tumor or cancer cell (e.g., a human tumor and/or cancer cell). In certain embodiments, the anti-microbial polypeptide may be cytotoxic and cytostatic to a tumor or cancer cell (e.g., a human tumor or cancer cell). In some embodiments, the anti-microbial polypeptide (e.g., an anti-bacterial polypeptide) may be a secreted polypeptide.
  • the anti-microbial polypeptide comprises or consists of a defensin.
  • defensins include, but are not limited to, ⁇ -defensins (e.g., neutrophil defensin 1, defensin alpha 1, neutrophil defensin 3, neutrophil defensin 4, defensin 5, defensin 6), ⁇ -defensins (e.g., beta-defensin 1, beta-defensin 2, beta-defensin 103, beta-defensin 107, beta-defensin 110, beta-defensin 136), and ⁇ -defensins.
  • the anti-microbial polypeptide comprises or consists of a cathelicidin (e.g., hCAP18).
  • Anti-viral polypeptides are small peptides of variable length, sequence and structure with broad spectrum activity against a wide range of viruses. See, e.g., Zaiou, J Mol Med, 2007; 85:317. It has been shown that AVPs have a broad-spectrum of rapid onset of killing activities, with potentially low levels of induced resistance and concomitant broad anti-inflammatory effects.
  • the anti-viral polypeptide is under 10 kDa, e.g., under 8 kDa, 6 kDa, 4 kDa, 2 kDa, or 1 kDa.
  • the anti-viral polypeptide comprises or consists of from about 6 to about 100 amino acids, e.g., from about 6 to about 75 amino acids, about 6 to about 50 amino acids, about 6 to about 25 amino acids, about 25 to about 100 amino acids, about 50 to about 100 amino acids, or about 75 to about 100 amino acids. In certain embodiments, the anti-viral polypeptide comprises or consists of from about 15 to about 45 amino acids. In some embodiments, the anti-viral polypeptide is substantially cationic. In some embodiments, the anti-viral polypeptide is substantially amphipathic. In certain embodiments, the anti-viral polypeptide is substantially cationic and amphipathic.
  • the anti-viral polypeptide is cytostatic to a virus. In some embodiments, the anti-viral polypeptide is cytotoxic to a virus. In some embodiments, the anti-viral polypeptide is cytostatic and cytotoxic to a virus. In some embodiments, the anti-viral polypeptide is cytostatic to a bacterium, fungus, protozoan, parasite, prion, or a combination thereof. In some embodiments, the anti-viral polypeptide is cytotoxic to a bacterium, fungus, protozoan, parasite, prion or a combination thereof.
  • the anti-viral polypeptide is cytostatic and cytotoxic to a bacterium, fungus, protozoan, parasite, prion, or a combination thereof. In some embodiments, the anti-viral polypeptide is cytotoxic to a tumor or cancer cell (e.g., a human cancer cell). In some embodiments, the anti-viral polypeptide is cytostatic to a tumor or cancer cell (e.g., a human cancer cell). In certain embodiments, the anti-viral polypeptide is cytotoxic and cytostatic to a tumor or cancer cell (e.g., a human cancer cell). In some embodiments, the anti-viral polypeptide is a secreted polypeptide.
  • the polynucleotides, primary constructs or mmRNA of the present invention may incorporate one or more cytotoxic nucleosides.
  • cytotoxic nucleosides may be incorporated into polynucleotides, primary constructs or mmRNA such as bifunctional modified RNAs or mRNAs.
  • Cytotoxic nucleoside anti-cancer agents include, but are not limited to, adenosine arabinoside, cytarabine, cytosine arabinoside, 5-fluorouracil, fludarabine, floxuridine, FTORAFUR® (a combination of tegafur and uracil), tegafur ((RS)-5-fluoro-1-(tetrahydrofuran-2-yl)pyrimidine-2,4(1H,3H)-dione), and 6-mercaptopurine.
  • cytotoxic nucleoside analogues are in clinical use, or have been the subject of clinical trials, as anticancer agents.
  • examples of such analogues include, but are not limited to, cytarabine, gemcitabine, troxacitabine, decitabine, tezacitabine, 2′-deoxy-2′-methylidenecytidine (DMDC), cladribine, clofarabine, 5-azacytidine, 4′-thio-aracytidine, cyclopentenylcytosine and 1-(2-C-cyano-2-deoxy-beta-D-arabino-pentofuranosyl)-cytosine.
  • Another example of such a compound is fludarabine phosphate.
  • cytotoxic nucleoside analogues examples include, but are not limited to, N4-behenoyl-1-beta-D-arabinofuranosylcytosine, N4-octadecyl-1-beta-D-arabinofuranosylcytosine, N4-palmitoyl-1-(2-C-cyano-2-deoxy-beta-D-arabino-pentofuranosyl) cytosine, and P-4055 (cytarabine 5′-elaidic acid ester).
  • these prodrugs may be converted into the active drugs mainly in the liver and systemic circulation and display little or no selective release of active drug in the tumor tissue.
  • active drug for example, capecitabine, a prodrug of 5′-deoxy-5-fluorocytidine (and eventually of 5-fluorouracil), is metabolized both in the liver and in the tumor tissue.
  • capecitabine analogues containing “an easily hydrolysable radical under physiological conditions” has been claimed by Fujiu et al. (U.S. Pat. No. 4,966,891) and is herein incorporated by reference.
  • Cytotoxic nucleotides which may be chemotherapeutic also include, but are not limited to, pyrazolo[3,4-D]-pyrimidines, allopurinol, azathioprine, capecitabine, cytosine arabinoside, fluorouracil, mercaptopurine, 6-thioguanine, acyclovir, ara-adenosine, ribavirin, 7-deaza-adenosine, 7-deaza-guanosine, 6-aza-uracil, 6-aza-cytidine, thymidine ribonucleotide, 5-bromodeoxyuridine, 2-chloro-purine, and inosine, or combinations thereof.
  • UTRs Untranslated Regions
  • Untranslated regions (UTRs) of a gene are transcribed but not translated.
  • the 5′UTR starts at the transcription start site and continues to the start codon but does not include the start codon; whereas, the 3′UTR starts immediately following the stop codon and continues until the transcriptional termination signal.
  • the regulatory features of a UTR can be incorporated into the polynucleotides, primary constructs and/or mmRNA of the present invention to enhance the stability of the molecule.
  • the specific features can also be incorporated to ensure controlled down-regulation of the transcript in case they are misdirected to undesired organs sites.
  • Natural 5′UTRs bear features which play roles in for translation initiation. They harbor signatures like Kozak sequences which are commonly known to be involved in the process by which the ribosome initiates translation of many genes. Kozak sequences have the consensus CCR(A/G)CCAUGG, where R is a purine (adenine or guanine) three bases upstream of the start codon (AUG), which is followed by another ‘G’. 5′UTR also have been known to form secondary structures which are involved in elongation factor binding.
  • mRNA such as albumin, serum amyloid A, Apolipoprotein A/B/E, transferrin, alpha fetoprotein, erythropoietin, or Factor VIII
  • tissue-specific mRNA to improve expression in that tissue is possible for muscle (MyoD, Myosin, Myoglobin, Myogenin, Herculin), for endothelial cells (Tie-1, CD36), for myeloid cells (C/EBP, AML1, G-CSF, GM-CSF, CD11b, MSR, Fr-1, i-NOS), for leukocytes (CD45, CD18), for adipose tissue (CD36, GLUT4, ACRP30, adiponectin) and for lung epithelial cells (SP-A/B/C/D).
  • non-UTR sequences may be incorporated into the 5′ (or 3′ UTR) UTRs.
  • introns or portions of introns sequences may be incorporated into the flanking regions of the polynucleotides, primary constructs or mmRNA of the invention. Incorporation of intronic sequences may increase protein production as well as mRNA levels.
  • 3′ UTRs are known to have stretches of Adenosines and Uridines embedded in them. These AU rich signatures are particularly prevalent in genes with high rates of turnover. Based on their sequence features and functional properties, the AU rich elements (AREs) can be separated into three classes (Chen et al, 1995): Class I AREs contain several dispersed copies of an AUUUA motif within U-rich regions. C-Myc and MyoD contain class I AREs. Class II AREs possess two or more overlapping UUAUUUA(U/A)(U/A) nonamers. Molecules containing this type of AREs include GM-CSF and TNF-a. Class III ARES are less well defined.
  • AREs 3′ UTR AU rich elements
  • Introduction, removal or modification of 3′ UTR AU rich elements can be used to modulate the stability of polynucleotides, primary constructs or mmRNA of the invention.
  • AREs can be identified and removed or mutated to increase the intracellular stability and thus increase translation and production of the resultant protein.
  • Transfection experiments can be conducted in relevant cell lines, using polynucleotides, primary constructs or mmRNA of the invention and protein production can be assayed at various time points post-transfection.
  • cells can be transfected with different ARE-engineering molecules and by using an ELISA kit to the relevant protein and assaying protein produced at 6 hour, 12 hour, 24 hour, 48 hour, and 7 days post-transfection.
  • microRNAs are 19-25 nucleotide long noncoding RNAs that bind to the 3′UTR of nucleic acid molecules and down-regulate gene expression either by reducing nucleic acid molecule stability or by inhibiting translation.
  • the polynucleotides, primary constructs or mmRNA of the invention may comprise one or more microRNA target sequences, microRNA seqences, or microRNA seeds. Such sequences may correspond to any known microRNA such as those taught in US Publication US2005/0261218 and US Publication US2005/0059005, the contents of which are incorporated herein by reference in their entirety.
  • a microRNA sequence comprises a “seed” region, i.e., a sequence in the region of positions 2-8 of the mature microRNA, which sequence has perfect Watson-Crick complementarity to the miRNA target sequence.
  • a microRNA seed may comprise positions 2-8 or 2-7 of the mature microRNA.
  • a microRNA seed may comprise 7 nucleotides (e.g., nucleotides 2-8 of the mature microRNA), wherein the seed-complementary site in the corresponding miRNA target is flanked by an adenine (A) opposed to microRNA position 1.
  • a microRNA seed may comprise 6 nucleotides (e.g., nucleotides 2-7 of the mature microRNA), wherein the seed-complementary site in the corresponding miRNA target is flanked byan adenine (A) opposed to microRNA position 1.
  • A an adenine
  • the bases of the microRNA seed have complete complementarity with the target sequence.
  • microRNA target sequences By engineering microRNA target sequences into the 3′UTR of polynucleotides, primary constructs or mmRNA of the invention one can target the molecule for degradation or reduced translation, provided the microRNA in question is available. This process will reduce the hazard of off target effects upon nucleic acid molecule delivery. Identification of microRNA, microRNA target regions, and their expression patterns and role in biology have been reported (Bonauer et al., Curr Drug Targets 2010 11:943-949; Anand and Cheresh Curr Opin Hematol 2011 18:171-176; Contreras and Rao Leukemia 2012 26:404-413 (2011 Dec. 20. doi: 10.1038/leu.2011.356); Bartel Cell 2009 136:215-233; Landgraf et al, Cell, 2007 129:1401-1414; each of which is herein incorporated by reference in its entirety).
  • miR-122 a microRNA abundant in liver, can inhibit the expression of the gene of interest if one or multiple target sites of miR-122 are engineered into the 3′ UTR of the polynucleotides, primary constructs or mmRNA.
  • Introduction of one or multiple binding sites for different microRNA can be engineered to further decrease the longevity, stability, and protein translation of a polynucleotides, primary constructs or mmRNA.
  • microRNA site refers to a microRNA target site or a microRNA recognition site, or any nucleotide sequence to which a microRNA binds or associates. It should be understood that “binding” may follow traditional Watson-Crick hybridization rules or may reflect any stable association of the microRNA with the target sequence at or adjacent to the microRNA site.
  • microRNA binding sites can be engineered out of (i.e. removed from) sequences in which they naturally occur in order to increase protein expression in specific tissues.
  • miR-122 binding sites may be removed to improve protein expression in the liver. Regulation of expression in multiple tissues can be accomplished through introduction or removal or one or several microRNA binding sites.
  • tissues where microRNA are known to regulate mRNA, and thereby protein expression include, but are not limited to, liver (miR-122), muscle (miR-133, miR-206, miR-208), endothelial cells (miR-17-92, miR-126), myeloid cells (miR-142-3p, miR-142-5p, miR-16, miR-21, miR-223, miR-24, miR-27), adipose tissue (let-7, miR-30c), heart (miR-id, miR-149), kidney (miR-192, miR-194, miR-204), and lung epithelial cells (let-7, miR-133, miR-126).
  • liver miR-122
  • muscle miR-133, miR-206, miR-208
  • endothelial cells miR-17-92, miR-126
  • myeloid cells miR-142-3p, miR-142-5p, miR-16, miR-21, miR-223, mi
  • MicroRNA can also regulate complex biological processes such as angiogenesis (miR-132) (Anand and Cheresh Curr Opin Hematol 2011 18:171-176; herein incorporated by reference in its entirety).
  • angiogenesis miR-132
  • binding sites for microRNAs that are involved in such processes may be removed or introduced, in order to tailor the expression of the polynucleotides, primary constructs or mmRNA expression to biologically relevant cell types or to the context of relevant biological processes.
  • a listing of MicroRNA, miR sequences and miR binding sites is listed in Table 9 of U.S. Provisional Application No. 61/753,661 filed Jan. 17, 2013, in Table 9 of U.S. Provisional Application No. 61/754,159 filed Jan. 18, 2013, and in Table 7 of U.S. Provisional Application No. 61/758,921 filed Jan. 31, 2013, each of which are herein incorporated by reference in their entireties.
  • microRNA seed sites can be incorporated into mRNA to decrease expression in certain cells which results in a biological improvement.
  • An example of this is incorporation of miR-142 sites into a UGT1A1-expressing lentiviral vector.
  • miR-142 seed sites reduced expression in hematopoietic cells, and as a consequence reduced expression in antigen-presentating cells, leading to the absence of an immune response against the virally expressed UGT1A1 (Schmitt et al., Gastroenterology 2010; 139:999-1007; Gonzalez-Asequinolaza et al. Gastroenterology 2010, 139:726-729; both herein incorporated by reference in its entirety).
  • Incorporation of miR-142 sites into modified mRNA could not only reduce expression of the encoded protein in hematopoietic cells, but could also reduce or abolish immune responses to the mRNA-encoded protein.
  • Incorporation of miR-142 seed sites (one or multiple) into mRNA would be important in the case of treatment of patients with complete protein deficiencies (UGT1A1 type I, LDLR-deficient patients, CRIM-negative Pompe patients, etc.).
  • polynucleotides, primary constructs or mmRNA can be engineered for more targeted expression in specific cell types or only under specific biological conditions.
  • tissue-specific microRNA binding sites polynucleotides, primary constructs or mmRNA could be designed that would be optimal for protein expression in a tissue or in the context of a biological condition.
  • Transfection experiments can be conducted in relevant cell lines, using engineered polynucleotides, primary constructs or mmRNA and protein production can be assayed at various time points post-transfection.
  • cells can be transfected with different microRNA binding site-engineering polynucleotides, primary constructs or mmRNA and by using an ELISA kit to the relevant protein and assaying protein produced at 6 hour, 12 hour, 24 hour, 48 hour, 72 hour and 7 days post-transfection.
  • In vivo experiments can also be conducted using microRNA-binding site-engineered molecules to examine changes in tissue-specific expression of formulated polynucleotides, primary constructs or mmRNA.
  • the 5′ cap structure of an mRNA is involved in nuclear export, increasing mRNA stability and binds the mRNA Cap Binding Protein (CBP), which is responsibile for mRNA stability in the cell and translation competency through the association of CBP with poly(A) binding protein to form the mature cyclic mRNA species.
  • CBP mRNA Cap Binding Protein
  • the cap further assists the removal of 5′ proximal introns removal during mRNA splicing.
  • Endogenous mRNA molecules may be 5′-end capped generating a 5′-ppp-5′-triphosphate linkage between a terminal guanosine cap residue and the 5′-terminal transcribed sense nucleotide of the mRNA molecule.
  • This 5′-guanylate cap may then be methylated to generate an N7-methyl-guanylate residue.
  • the ribose sugars of the terminal and/or anteterminal transcribed nucleotides of the 5′ end of the mRNA may optionally also be 2′-O-methylated.
  • 5′-decapping through hydrolysis and cleavage of the guanylate cap structure may target a nucleic acid molecule, such as an mRNA molecule, for degradation.
  • Modifications to the polynucleotides, primary constructs, and mmRNA of the present invention may generate a non-hydrolyzable cap structure preventing decapping and thus increasing mRNA half-life. Because cap structure hydrolysis requires cleavage of 5′-ppp-5′ phosphorodiester linkages, modified nucleotides may be used during the capping reaction. For example, a Vaccinia Capping Enzyme from New England Biolabs (Ipswich, Mass.) may be used with a-thio-guanosine nucleotides according to the manufacturer's instructions to create a phosphorothioate linkage in the 5′-ppp-5′ cap. Additional modified guanosine nucleotides may be used such as ⁇ -methyl-phosphonate and seleno-phosphate nucleotides.
  • Additional modifications include, but are not limited to, 2′-O-methylation of the ribose sugars of 5′-terminal and/or 5′-anteterminal nucleotides of the mRNA (as mentioned above) on the 2′-hydroxyl group of the sugar ring.
  • Multiple distinct 5′-cap structures can be used to generate the 5′-cap of a nucleic acid molecule, such as an mRNA molecule.
  • Cap analogs which herein are also referred to as synthetic cap analogs, chemical caps, chemical cap analogs, or structural or functional cap analogs, differ from natural (i.e. endogenous, wild-type or physiological) 5′-caps in their chemical structure, while retaining cap function. Cap analogs may be chemically (i.e. non-enzymatically) or enzymatically synthesized and/or linked to a nucleic acid molecule.
  • the Anti-Reverse Cap Analog (ARCA) cap contains two guanines linked by a 5′-5′-triphosphate group, wherein one guanine contains an N7 methyl group as well as a 3′-O-methyl group (i.e., N7,3′-O-dimethyl-guanosine-5′-triphosphate-5′-guanosine (m 7 G-3′mppp-G; which may equivaliently be designated 3′ O-Me-m7G(5′)ppp(5′)G).
  • the 3′-O atom of the other, unmodified, guanine becomes linked to the 5′-terminal nucleotide of the capped nucleic acid molecule (e.g. an mRNA or mmRNA).
  • the N7- and 3′-O-methlyated guanine provides the terminal moiety of the capped nucleic acid molecule (e.g. mRNA or mmRNA).
  • mCAP is similar to ARCA but has a 2′-O-methyl group on guanosine (i.e., N7,2′-O-dimethyl-guanosine-5′-triphosphate-5′-guanosine, m 7 Gm-ppp-G).
  • cap analogs allow for the concomitant capping of a nucleic acid molecule in an in vitro transcription reaction, up to 20% of transcripts can remain uncapped. This, as well as the structural differences of a cap analog from an endogenous 5′-cap structures of nucleic acids produced by the endogenous, cellular transcription machinery, may lead to reduced translational competency and reduced cellular stability.
  • Polynucleotides, primary constructs and mmRNA of the invention may also be capped post-transcriptionally, using enzymes, in order to generate more authentic 5′-cap structures.
  • the phrase “more authentic” refers to a feature that closely mirrors or mimics, either structurally or functionally, an endogenous or wild type feature. That is, a “more authentic” feature is better representative of an endogenous, wild-type, natural or physiological cellular function and/or structure as compared to synthetic features or analogs, etc., of the prior art, or which outperforms the corresponding endogenous, wild-type, natural or physiological feature in one or more respects.
  • Non-limiting examples of more authentic 5′cap structures of the present invention are those which, among other things, have enhanced binding of cap binding proteins, increased half life, reduced susceptibility to 5′ endonucleases and/or reduced 5′decapping, as compared to synthetic 5′cap structures known in the art (or to a wild-type, natural or physiological 5′cap structure).
  • recombinant Vaccinia Virus Capping Enzyme and recombinant 2′-O-methyltransferase enzyme can create a canonical 5′-5′-triphosphate linkage between the 5′-terminal nucleotide of an mRNA and a guanine cap nucleotide wherein the cap guanine contains an N7 methylation and the 5′-terminal nucleotide of the mRNA contains a 2′-O-methyl.
  • Cap1 structure is termed the Cap1 structure.
  • Cap structures include, but are not limited to, 7mG(5′)ppp(5′)N,pN2p (cap 0), 7mG(5′)ppp(5′)N1mpNp (cap 1), and 7mG(5′)-ppp(5′)N1mpN2 mp (cap 2).
  • polynucleotides, primary constructs or mmRNA may be capped post-transcriptionally, and because this process is more efficient, nearly 100% of the polynucleotides, primary constructs or mmRNA may be capped. This is in contrast to ⁇ 80% when a cap analog is linked to an mRNA in the course of an in vitro transcription reaction.
  • 5′ terminal caps may include endogenous caps or cap analogs.
  • a 5′ terminal cap may comprise a guanine analog.
  • Useful guanine analogs include, but are not limited to, inosine, N1-methyl-guanosine, 2′fluoro-guanosine, 7-deaza-guanosine, 8-oxo-guanosine, 2-amino-guanosine, LNA-guanosine, and 2-azido-guanosine.
  • Additional viral sequences such as, but not limited to, the translation enhancer sequence of the barley yellow dwarf virus (BYDV-PAV), the Jaagsiekte sheep retrovirus (JSRV) and/or the Enzootic nasal tumor virus (See e.g., International Pub. No. WO2012129648; herein incorporated by reference in its entirety) can be engineered and inserted in the 3′ UTR of the polynucleotides, primary constructs or mmRNA of the invention and can stimulate the translation of the construct in vitro and in vivo. Transfection experiments can be conducted in relevant cell lines at and protein production can be assayed by ELISA at 12 hr, 24 hr, 48 hr, 72 hr and day 7 post-transfection.
  • BYDV-PAV barley yellow dwarf virus
  • JSRV Jaagsiekte sheep retrovirus
  • Enzootic nasal tumor virus See e.g., International Pub. No. WO2012129648; herein incorporated by reference in its entirety
  • IRES internal ribosome entry site
  • IRES first identified as a feature Picorna virus RNA, IRES plays an important role in initiating protein synthesis in absence of the 5′ cap structure. An IRES may act as the sole ribosome binding site, or may serve as one of multiple ribosome binding sites of an mRNA.
  • Polynucleotides, primary constructs or mmRNA containing more than one functional ribosome binding site may encode several peptides or polypeptides that are translated independently by the ribosomes (“multicistronic nucleic acid molecules”).
  • IRES sequences that can be used according to the invention include without limitation, those from picornaviruses (e.g. FMDV), pest viruses (CFFV), polio viruses (PV), encephalomyocarditis viruses (ECMV), foot-and-mouth disease viruses (FMDV), hepatitis C viruses (HCV), classical swine fever viruses (CSFV), murine leukemia virus (MLV), simian immune deficiency viruses (SIV) or cricket paralysis viruses (CrPV).
  • picornaviruses e.g. FMDV
  • CFFV pest viruses
  • PV polio viruses
  • ECMV encephalomyocarditis viruses
  • FMDV foot-and-mouth disease viruses
  • HCV hepatitis C viruses
  • CSFV classical swine fever viruses
  • MLV murine leukemia virus
  • SIV simian immune deficiency viruses
  • CrPV cricket paralysis viruses
  • a long chain of adenine nucleotides may be added to a polynucleotide such as an mRNA molecules in order to increase stability.
  • a polynucleotide such as an mRNA molecules
  • the 3′ end of the transcript may be cleaved to free a 3′ hydroxyl.
  • poly-A polymerase adds a chain of adenine nucleotides to the RNA.
  • the process called polyadenylation, adds a poly-A tail that can be between, for example, approximately 100 and 250 residues long.
  • the length of a poly-A tail of the present invention is greater than 30 nucleotides in length.
  • the poly-A tail is greater than 35 nucleotides in length (e.g., at least or greater than about 35, 40, 45, 50, 55, 60, 70, 80, 90, 100, 120, 140, 160, 180, 200, 250, 300, 350, 400, 450, 500, 600, 700, 800, 900, 1,000, 1,100, 1,200, 1,300, 1,400, 1,500, 1,600, 1,700, 1,800, 1,900, 2,000, 2,500, and 3,000 nucleotides).
  • the polynucleotide, primary construct, or mmRNA includes from about 30 to about 3,000 nucleotides (e.g., from 30 to 50, from 30 to 100, from 30 to 250, from 30 to 500, from 30 to 750, from 30 to 1,000, from 30 to 1,500, from 30 to 2,000, from 30 to 2,500, from 50 to 100, from 50 to 250, from 50 to 500, from 50 to 750, from 50 to 1,000, from 50 to 1,500, from 50 to 2,000, from 50 to 2,500, from 50 to 3,000, from 100 to 500, from 100 to 750, from 100 to 1,000, from 100 to 1,500, from 100 to 2,000, from 100 to 2,500, from 100 to 3,000, from 500 to 750, from 500 to 1,000, from 500 to 1,500, from 500 to 2,000, from 500 to 2,500, from 500 to 3,000, from 1,000 to 1,500, from 1,000 to 2,000, from 1,000 to 2,500, from 1,000 to 3,000, from 1,500 to 2,000, from 1,500 to 2,500, from 1,500 to 2,500,
  • the poly-A tail is designed relative to the length of the overall polynucleotides, primary constructs or mmRNA. This design may be based on the length of the coding region, the length of a particular feature or region (such as the first or flanking regions), or based on the length of the ultimate product expressed from the polynucleotides, primary constructs or mmRNA.
  • the poly-A tail may be 10, 20, 30, 40, 50, 60, 70, 80, 90, or 100% greater in length than the polynucleotides, primary constructs or mmRNA or feature thereof.
  • the poly-A tail may also be designed as a fraction of polynucleotides, primary constructs or mmRNA to which it belongs.
  • the poly-A tail may be 10, 20, 30, 40, 50, 60, 70, 80, or 90% or more of the total length of the construct or the total length of the construct minus the poly-A tail.
  • engineered binding sites and conjugation of polynucleotides, primary constructs or mmRNA for Poly-A binding protein may enhance expression.
  • multiple distinct polynucleotides, primary constructs or mmRNA may be linked together to the PABP (Poly-A binding protein) through the 3′-end using modified nucleotides at the 3′-terminus of the poly-A tail.
  • Transfection experiments can be conducted in relevant cell lines at and protein production can be assayed by ELISA at 12 hr, 24 hr, 48 hr, 72 hr and day 7 post-transfection.
  • the polynucleotide primary constructs of the present invention are designed to include a polyA-G quartet.
  • the G-quartet is a cyclic hydrogen bonded array of four guanine nucleotides that can be formed by G-rich sequences in both DNA and RNA.
  • the G-quartet is incorporated at the end of the poly-A tail.
  • the resultant mmRNA construct is assayed for stability, protein production and other parameters including half-life at various time points. It has been discovered that the polyA-G quartet results in protein production equivalent to at least 75% of that seen using a poly-A tail of 120 nucleotides alone.
  • the polynucleotides, primary constructs or mmRNA of the present invention may be quantified in exosomes derived from one or more bodily fluid.
  • bodily fluids include peripheral blood, serum, plasma, ascites, urine, cerebrospinal fluid (CSF), sputum, saliva, bone marrow, synovial fluid, aqueous humor, amniotic fluid, cerumen, breast milk, broncheoalveolar lavage fluid, semen, prostatic fluid, cowper's fluid or pre-ejaculatory fluid, sweat, fecal matter, hair, tears, cyst fluid, pleural and peritoneal fluid, pericardial fluid, lymph, chyme, chyle, bile, interstitial fluid, menses, pus, sebum, vomit, vaginal secretions, mucosal secretion, stool water, pancreatic juice, lavage fluids from sinus cavities, bronchopulmonary aspirates, blastocyl cavity fluid, and um
  • exosomes may be retrieved from an organ selected from the group consisting of lung, heart, pancreas, stomach, intestine, bladder, kidney, ovary, testis, skin, colon, breast, prostate, brain, esophagus, liver, and placenta.
  • the level or concentration of a polynucleotide, primary construct or mmRNA may be an expression level, presence, absence, truncation or alteration of the administered construct. It is advantageous to correlate the level with one or more clinical phenotypes or with an assay for a human disease biomarker.
  • the assay may be performed using construct specific probes, cytometry, qRT-PCR, real-time PCR, PCR, flow cytometry, electrophoresis, mass spectrometry, or combinations thereof while the exosomes may be isolated using immunohistochemical methods such as enzyme linked immunosorbent assay (ELISA) methods. Exosomes may also be isolated by size exclusion chromatography, density gradient centrifugation, differential centrifugation, nanomembrane ultrafiltration, immunoabsorbent capture, affinity purification, microfluidic separation, or combinations thereof
  • Polynucleotides, primary constructs or mmRNA for use in accordance with the invention may be prepared according to any available technique including, but not limited to chemical synthesis, enzymatic synthesis, which is generally termed in vitro transcription (IVT) or enzymatic or chemical cleavage of a longer precursor, etc.
  • IVT in vitro transcription
  • Methods of synthesizing RNAs are known in the art (see, e.g., Gait, M. J. (ed.) Oligonucleotide synthesis: a practical approach , Oxford [Oxfordshire], Washington, D.C.: IRL Press, 1984; and Herdewijn, P. (ed.) Oligonucleotide synthesis: methods and applications , Methods in Molecular Biology, v. 288 (Clifton, N. J.) Totowa, N. J.: Humana Press, 2005; both of which are incorporated herein by reference).
  • the process of design and synthesis of the primary constructs of the invention generally includes the steps of gene construction, mRNA production (either with or without modifications) and purification.
  • a target polynucleotide sequence encoding the polypeptide of interest is first selected for incorporation into a vector which will be amplified to produce a cDNA template.
  • the target polynucleotide sequence and/or any flanking sequences may be codon optimized.
  • the cDNA template is then used to produce mRNA through in vitro transcription (IVT). After production, the mRNA may undergo purification and clean-up processes. The steps of which are provided in more detail below.
  • the step of gene construction may include, but is not limited to gene synthesis, vector amplification, plasmid purification, plasmid linearization and clean-up, and cDNA template synthesis and clean-up.
  • a primary construct is designed.
  • a first region of linked nucleosides encoding the polypeptide of interest may be constructed using an open reading frame (ORF) of a selected nucleic acid (DNA or RNA) transcript.
  • the ORF may comprise the wild type ORF, an isoform, variant or a fragment thereof.
  • an “open reading frame” or “ORF” is meant to refer to a nucleic acid sequence (DNA or RNA) which is capable of encoding a polypeptide of interest. ORFs often begin with the start codon, ATG and end with a nonsense or termination codon or signal.
  • nucleotide sequence of the first region may be codon optimized. Codon optimization methods are known in the art and may be useful in efforts to achieve one or more of several goals. These goals include to match codon frequencies in target and host organisms to ensure proper folding, bias GC content to increase mRNA stability or reduce secondary structures, minimize tandem repeat codons or base runs that may impair gene construction or expression, customize transcriptional and translational control regions, insert or remove protein trafficking sequences, remove/add post translation modification sites in encoded protein (e.g.
  • Codon optimization tools, algorithms and services are known in the art, non-limiting examples include services from GeneArt (Life Technologies), DNA2.0 (Menlo Park Calif.) and/or proprietary methods.
  • the ORF sequence is optimized using optimization algorithms. Codon options for each amino acid are given in Table 1.
  • flanking regions may be incorporated into the primary construct before and/or after optimization of the ORF. It is not required that a primary construct contain both a 5′ and 3′ flanking region. Examples of such features include, but are not limited to, untranslated regions (UTRs), Kozak sequences, an oligo(dT) sequence, and detectable tags and may include multiple cloning sites which may have XbaI recognition.
  • a 5′ UTR and/or a 3′ UTR may be provided as flanking regions. Multiple 5′ or 3′ UTRs may be included in the flanking regions and may be the same or of different sequences. Any portion of the flanking regions, including none, may be codon optimized and any may independently contain one or more different structural or chemical modifications, before and/or after codon optimization. Combinations of features may be included in the first and second flanking regions and may be contained within other features.
  • the ORF may be flanked by a 5′ UTR which may contain a strong Kozak translational initiation signal and/or a 3′ UTR which may include an oligo(dT) sequence for templated addition of a poly-A tail.
  • 5′UTR may comprise a first polynucleotide fragment and a second polynucleotide fragment from the same and/or different genes such as the 5′UTRs described in US Patent Application Publication No. 20100293625, herein incorporated by reference in its entirety.
  • Tables 2 and 3 provide a listing of exemplary UTRs which may be utilized in the primary construct of the present invention as flanking regions. Shown in Table 2 is a listing of a 5′-untranslated region of the invention. Variants of 5′ UTRs may be utilized wherein one or more nucleotides are added or removed to the termini, including A, T, C or G.
  • Table 3 Shown in Table 3 is a representative listing of 3′-untranslated regions of the invention. Variants of 3′ UTRs may be utilized wherein one or more nucleotides are added or removed to the termini, including A, T, C or G.
  • any UTR from any gene may be incorporated into the respective first or second flanking region of the primary construct.
  • multiple wild-type UTRs of any known gene may be utilized. It is also within the scope of the present invention to provide artificial UTRs which are not variants of wild type genes. These UTRs or portions thereof may be placed in the same orientation as in the transcript from which they were selected or may be altered in orientation or location. Hence a 5′ or 3′ UTR may be inverted, shortened, lengthened, made chimeric with one or more other 5′ UTRs or 3′ UTRs.
  • the term “altered” as it relates to a UTR sequence means that the UTR has been changed in some way in relation to a reference sequence.
  • a 3′ or 5′ UTR may be altered relative to a wild type or native UTR by the change in orientation or location as taught above or may be altered by the inclusion of additional nucleotides, deletion of nucleotides, swapping or transposition of nucleotides. Any of these changes producing an “altered” UTR (whether 3′ or 5′) comprise a variant UTR.
  • a double, triple or quadruple UTR such as a 5′ or 3′ UTR may be used.
  • a “double” UTR is one in which two copies of the same UTR are encoded either in series or substantially in series.
  • a double beta-globin 3′ UTR may be used as described in US Patent publication 20100129877, the contents of which are incorporated herein by reference in its entirety.
  • patterned UTRs are those UTRs which reflect a repeating or alternating pattern, such as ABABAB or AABBAABBAABB or ABCABCABC or variants thereof repeated once, twice, or more than 3 times. In these patterns, each letter, A, B, or C represent a different UTR at the nucleotide level.
  • flanking regions are selected from a family of transcripts whose proteins share a common function, structure, feature of property.
  • polypeptides of interest may belong to a family of proteins which are expressed in a particular cell, tissue or at some time during development.
  • the UTRs from any of these genes may be swapped for any other UTR of the same or different family of proteins to create a new chimeric primary transcript.
  • a “family of proteins” is used in the broadest sense to refer to a group of two or more polypeptides of interest which share at least one function, structure, feature, localization, origin, or expression pattern.
  • the primary construct components are reconstituted and transformed into a vector such as, but not limited to, plasmids, viruses, cosmids, and artificial chromosomes.
  • a vector such as, but not limited to, plasmids, viruses, cosmids, and artificial chromosomes.
  • the optimized construct may be reconstituted and transformed into chemically competent E. coli , yeast, neurospora, maize, drosophila , etc. where high copy plasmid-like or chromosome structures occur by methods described herein.
  • the untranslated region may also include translation enhancer elements (TEE).
  • TEE translation enhancer elements
  • the TEE may include those described in US Application No. 20090226470, herein incorporated by reference in its entirety, and those known in the art.
  • the primary constructs of the present invention may include at least two stop codons before the 3′ untranslated region (UTR).
  • the stop codon may be selected from TGA, TAA and TAG.
  • the primary constructs of the present invention include the stop codon TGA and one additional stop codon.
  • the addition stop codon may be TAA.
  • the primary constructs of the present invention include three stop codons.
  • the vector containing the primary construct is then amplified and the plasmid isolated and purified using methods known in the art such as, but not limited to, a maxi prep using the Invitrogen PURELINKTM HiPure Maxiprep Kit (Carlsbad, Calif.).
  • the plasmid may then be linearized using methods known in the art such as, but not limited to, the use of restriction enzymes and buffers.
  • the linearization reaction may be purified using methods including, for example Invitrogen's PURELINKTM PCR Micro Kit (Carlsbad, Calif.), and HPLC based purification methods such as, but not limited to, strong anion exchange HPLC, weak anion exchange HPLC, reverse phase HPLC (RP-HPLC), and hydrophobic interaction HPLC (HIC-HPLC) and Invitrogen's standard PURELINKTM PCR Kit (Carlsbad, Calif.).
  • the purification method may be modified depending on the size of the linearization reaction which was conducted.
  • the linearized plasmid is then used to generate cDNA for in vitro transcription (IVT) reactions.
  • a cDNA template may be synthesized by having a linearized plasmid undergo polymerase chain reaction (PCR).
  • Table 4 is a listing of primers and probes that may be usefully in the PCR reactions of the present invention. It should be understood that the listing is not exhaustive and that primer-probe design for any amplification is within the skill of those in the art.
  • Probes may also contain chemically modified bases to increase base-pairing fidelity to the target molecule and base-pairing strength. Such modifications may include 5-methyl-Cytidine, 2,6-di-amino-purine, 2′-fluoro, phosphoro-thioate, or locked nucleic acids.
  • the cDNA may be submitted for sequencing analysis before undergoing transcription.
  • the process of mRNA or mmRNA production may include, but is not limited to, in vitro transcription, cDNA template removal and RNA clean-up, and mRNA capping and/or tailing reactions.
  • the cDNA produced in the previous step may be transcribed using an in vitro transcription (IVT) system.
  • the system typically comprises a transcription buffer, nucleotide triphosphates (NTPs), an RNase inhibitor and a polymerase.
  • NTPs may be manufactured in house, may be selected from a supplier, or may be synthesized as described herein.
  • the NTPs may be selected from, but are not limited to, those described herein including natural and unnatural (modified) NTPs.
  • the polymerase may be selected from, but is not limited to, T7 RNA polymerase, T3 RNA polymerase and mutant polymerases such as, but not limited to, polymerases able to incorporate modified nucleic acids.
  • RNA polymerases or variants may be used in the design of the primary constructs of the present invention.
  • RNA polymerases may be modified by inserting or deleting amino acids of the RNA polymerase sequence.
  • the RNA polymerase may be modified to exhibit an increased ability to incorporate a 2′-modified nucleotide triphosphate compared to an unmodified RNA polymerase (see International Publication WO2008078180 and U.S. Pat. No. 8,101,385; herein incorporated by reference in their entireties).
  • Variants may be obtained by evolving an RNA polymerase, optimizing the RNA polymerase amino acid and/or nucleic acid sequence and/or by using other methods known in the art.
  • T7 RNA polymerase variants may be evolved using the continuous directed evolution system set out by Esvelt et al.
  • T7 RNA polymerase may encode at least one mutation such as, but not limited to, lysine at position 93 substituted for threonine (K93T), 14M, A7T, E63V, V64D, A65E, D66Y, T76N, C125R, S128R, A136T, N165S, G175R, H176L, Y178H, F182L, L196F, G198V, D208Y, E222K, S228A, Q239R, T243N, G259D, M267I, G280C, H300R, D351A, A354S, E356D, L360P, A383V, Y385C, D388Y, S397R, M401T, N410S, K450R, P451T, G452V, E484A, H523
  • T7 RNA polymerase variants may encode at least mutation as described in U.S. Pub. Nos. 20100120024 and 20070117112; herein incorporated by reference in their entireties.
  • Variants of RNA polymerase may also include, but are not limited to, substitutional variants, conservative amino acid substitution, insertional variants, deletional variants and/or covalent derivatives.
  • the primary construct may be designed to be recognized by the wild type or variant RNA polymerases. In doing so, the primary construct may be modified to contain sites or regions of sequence changes from the wild type or parent primary construct.
  • the primary construct may be designed to include at least one substitution and/or insertion upstream of an RNA polymerase binding or recognition site, downstream of the RNA polymerase binding or recognition site, upstream of the TATA box sequence, downstream of the TATA box sequence of the primary construct but upstream of the coding region of the primary construct, within the 5′UTR, before the 5′UTR and/or after the 5′UTR.
  • the 5′UTR of the primary construct may be replaced by the insertion of at least one region and/or string of nucleotides of the same base.
  • the region and/or string of nucleotides may include, but is not limited to, at least 3, at least 4, at least 5, at least 6, at least 7 or at least 8 nucleotides and the nucleotides may be natural and/or unnatural.
  • the group of nucleotides may include 5-8 adenine, cytosine, thymine, a string of any of the other nucleotides disclosed herein and/or combinations thereof.
  • the 5′UTR of the primary construct may be replaced by the insertion of at least two regions and/or strings of nucleotides of two different bases such as, but not limited to, adenine, cytosine, thymine, any of the other nucleotides disclosed herein and/or combinations thereof.
  • the 5′UTR may be replaced by inserting 5-8 adenine bases followed by the insertion of 5-8 cytosine bases.
  • the 5′UTR may be replaced by inserting 5-8 cytosine bases followed by the insertion of 5-8 adenine bases.
  • the primary construct may include at least one substitution and/or insertion downstream of the transcription start site which may be recognized by an RNA polymerase.
  • at least one substitution and/or insertion may occur downstream the transcription start site by substituting at least one nucleic acid in the region just downstream of the transcription start site (such as, but not limited to, +1 to +6). Changes to region of nucleotides just downstream of the transcription start site may affect initiation rates, increase apparent nucleotide triphosphate (NTP) reaction constant values, and increase the dissociation of short transcripts from the transcription complex curing initial transcription (Brieba et al, Biochemistry (2002) 41: 5144-5149; herein incorporated by reference in its entirety).
  • the modification, substitution and/or insertion of at least one nucleic acid may cause a silent mutation of the nucleic acid sequence or may cause a mutation in the amino acid sequence.
  • the primary construct may include the substitution of at least 1, at least 2, at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 11, at least 12 or at least 13 guanine bases downstream of the transcription start site.
  • the primary construct may include the substitution of at least 1, at least 2, at least 3, at least 4, at least 5 or at least 6 guanine bases in the region just downstream of the transcription start site.
  • the guanine bases may be substituted by at least 1, at least 2, at least 3 or at least 4 adenine nucleotides.
  • the guanine bases may be substituted by at least 1, at least 2, at least 3 or at least 4 cytosine bases.
  • the guanine bases in the region are GGGAGA the guanine bases may be substituted by at least 1, at least 2, at least 3 or at least 4 thymine, and/or any of the nucleotides described herein.
  • the primary construct may include at least one substitution and/or insertion upstream of the start codon.
  • the start codon is the first codon of the protein coding region whereas the transcription start site is the site where transcription begins.
  • the primary construct may include, but is not limited to, at least 1, at least 2, at least 3, at least 4, at least 5, at least 6, at least 7 or at least 8 substitutions and/or insertions of nucleotide bases.
  • the nucleotide bases may be inserted or substituted at 1, at least 1, at least 2, at least 3, at least 4 or at least 5 locations upstream of the start codon.
  • the nucleotides inserted and/or substituted may be the same base (e.g., all A or all C or all T or all G), two different bases (e.g., A and C, A and T, or C and T), three different bases (e.g., A, C and T or A, C and T) or at least four different bases.
  • the guanine base upstream of the coding region in the primary construct may be substituted with adenine, cytosine, thymine, or any of the nucleotides described herein.
  • the substitution of guanine bases in the primary construct may be designed so as to leave one guanine base in the region downstream of the transcription start site and before the start codon (see Esvelt et al. Nature (2011) 472(7344):499-503; herein incorporated by reference in its entirety).
  • at least 5 nucleotides may be inserted at 1 location downstream of the transcription start site but upstream of the start codon and the at least 5 nucleotides may be the same base type.
  • RNA clean-up may also include a purification method such as, but not limited to, AGENCOURT® CLEANSEQ® system from Beckman Coulter (Danvers, Mass.), HPLC based purification methods such as, but not limited to, strong anion exchange HPLC, weak anion exchange HPLC, reverse phase HPLC (RP-HPLC), and hydrophobic interaction HPLC (HIC-HPLC).
  • AGENCOURT® CLEANSEQ® system from Beckman Coulter (Danvers, Mass.
  • HPLC based purification methods such as, but not limited to, strong anion exchange HPLC, weak anion exchange HPLC, reverse phase HPLC (RP-HPLC), and hydrophobic interaction HPLC (HIC-HPLC).
  • the primary construct or mmRNA may also undergo capping and/or tailing reactions.
  • a capping reaction may be performed by methods known in the art to add a 5′ cap to the 5′ end of the primary construct. Methods for capping include, but are not limited to, using a Vaccinia Capping enzyme (New England Biolabs, Ipswich, Mass.).
  • a poly-A tailing reaction may be performed by methods known in the art, such as, but not limited to, 2′ O-methyltransferase and by methods as described herein. If the primary construct generated from cDNA does not include a poly-T, it may be beneficial to perform the poly-A-tailing reaction before the primary construct is cleaned.
  • Primary construct or mmRNA purification may include, but is not limited to, mRNA or mmRNA clean-up, quality assurance and quality control.
  • mRNA or mmRNA clean-up may be performed by methods known in the arts such as, but not limited to, AGENCOURT® beads (Beckman Coulter Genomics, Danvers, Mass.), poly-T beads, LNATM oligo-T capture probes (EXIQON® Inc, Vedbaek, Denmark) or HPLC based purification methods such as, but not limited to, strong anion exchange HPLC, weak anion exchange HPLC, reverse phase HPLC (RP-HPLC), and hydrophobic interaction HPLC (HIC-HPLC).
  • AGENCOURT® beads Beckman Coulter Genomics, Danvers, Mass.
  • poly-T beads poly-T beads
  • LNATM oligo-T capture probes EXIQON® Inc, Vedbaek, Denmark
  • HPLC based purification methods such as, but not limited to, strong anion exchange
  • purified when used in relation to a polynucleotide such as a “purified mRNA or mmRNA” refers to one that is separated from at least one contaminant.
  • a “contaminant” is any substance which makes another unfit, impure or inferior.
  • a purified polynucleotide e.g., DNA and RNA
  • a quality assurance and/or quality control check may be conducted using methods such as, but not limited to, gel electrophoresis, UV absorbance, or analytical HPLC.
  • the mRNA or mmRNA may be sequenced by methods including, but not limited to reverse-transcriptase-PCR.
  • the mRNA or mmRNA may be quantified using methods such as, but not limited to, ultraviolet visible spectroscopy (UV/Vis).
  • UV/Vis ultraviolet visible spectroscopy
  • a non-limiting example of a UV/Vis spectrometer is a NANODROP® spectrometer (ThermoFisher, Waltham, Mass.).
  • the quantified mRNA or mmRNA may be analyzed in order to determine if the mRNA or mmRNA may be of proper size, check that no degradation of the mRNA or mmRNA has occurred.
  • Degradation of the mRNA and/or mmRNA may be checked by methods such as, but not limited to, agarose gel electrophoresis, HPLC based purification methods such as, but not limited to, strong anion exchange HPLC, weak anion exchange HPLC, reverse phase HPLC (RP-HPLC), and hydrophobic interaction HPLC (HIC-HPLC), liquid chromatography-mass spectrometry (LCMS), capillary electrophoresis (CE) and capillary gel electrophoresis (CGE).
  • HPLC based purification methods such as, but not limited to, strong anion exchange HPLC, weak anion exchange HPLC, reverse phase HPLC (RP-HPLC), and hydrophobic interaction HPLC (HIC-HPLC), liquid chromatography-mass spectrometry (LCMS), capillary electrophoresis (CE) and capillary gel electrophoresis (CGE).
  • the primary constructs or mmRNA may also encode additional features which facilitate trafficking of the polypeptides to therapeutically relevant sites.
  • One such feature which aids in protein trafficking is the signal sequence.
  • a “signal sequence” or “signal peptide” is a polynucleotide or polypeptide, respectively, which is from about 9 to 200 nucleotides (3-60 amino acids) in length which is incorporated at the 5′ (or N-terminus) of the coding region or polypeptide encoded, respectively. Addition of these sequences result in trafficking of the encoded polypeptide to the endoplasmic reticulum through one or more secretory pathways. Some signal peptides are cleaved from the protein by signal peptidase after the proteins are transported.
  • Table 5 is a representative listing of protein signal sequences which may be incorporated for encoding by the polynucleotides, primary constructs or mmRNA of the invention.
  • SS secretion signal
  • MLS mitochondrial leader signal.
  • the primary constructs or mmRNA of the present invention may be designed to encode any of the signal sequences of SEQ ID NOs 94-155, or fragments or variants thereof. These sequences may be included at the beginning of the polypeptide coding region, in the middle or at the terminus or alternatively into a flanking region. Further, any of the polynucleotide primary constructs of the present invention may also comprise one or more of the sequences defined by SEQ ID NOs 32-93. These may be in the first region or either flanking region.
  • Additional signal sequences which may be utilized in the present invention include those taught in, for example, databases such as those found at http://www.signalpeptide.de/ or http://proline.bic.nus.edu.sg/spdb/. Those described in U.S. Pat. Nos. 8,124,379; 7,413,875 and 7,385,034 are also within the scope of the invention and the contents of each are incorporated herein by reference in their entirety.
  • the primary constructs comprise at least a first region of linked nucleosides encoding at least one polypeptide of interest.
  • the polypeptides of interest or “Targets” of the present invention are listed in LengthyTable 6. Shown in Lengthy Table 6, in addition to the name and description of the gene encoding the polypeptide of interest (Target Description) are the ENSEMBL Transcript ID (ENST), the ENSEMBL Protein ID (ENSP) and when available the optimized transcript sequence ID (Optimized Trans SEQ ID) or optimized open reading frame sequence ID (Optimized ORF SEQ ID). For any particular gene there may exist one or more variants or isoforms. Where these exist, they are shown in the table as well.
  • flanking regions are encoded in each ENST transcript either to the 5′ (upstream) or 3′ (downstream) of the ORF or coding region.
  • the coding region is definitively and specifically disclosed by teaching the ENSP sequence. Consequently, the sequences taught flanking that encoding the protein are considered flanking regions. It is also possible to further characterize the 5′ and 3′ flanking regions by utilizing one or more available databases or algorithms. Databases have annotated the features contained in the flanking regions of the ENST transcripts and these are available in the art.
  • the polypeptides of the present invention may include at least one protein cleavage signal containing at least one protein cleavage site.
  • the protein cleavage site may be located at the N-terminus, the C-terminus, at any space between the N- and the C-termini such as, but not limited to, half-way between the N- and C-termini, between the N-terminus and the half way point, between the half way point and the C-terminus, and combinations thereof.
  • the polypeptides of the present invention may include, but is not limited to, a proprotein convertase (or prohormone convertase), thrombin or Factor Xa protein cleavage signal.
  • Proprotein convertases are a family of nine proteinases, comprising seven basic amino acid-specific subtilisin-like serine proteinases related to yeast kexin, known as prohormone convertase 1/3 (PC1/3), PC2, furin, PC4, PC5/6, paired basic amino-acid cleaving enzyme 4 (PACE4) and PC7, and two other subtilases that cleave at non-basic residues, called subtilisin kexin isozyme 1 (SKI-1) and proprotein convertase subtilisin kexin 9 (PCSK9).
  • Non-limiting examples of protein cleavage signal amino acid sequences are listing in Table 7.
  • “X” refers to any amino acid
  • “n” may be 0, 2, 4 or 6 amino acids
  • “*” refers to the protein cleavage site.
  • the primary constructs and the mmRNA of the present invention may be engineered such that the primary construct or mmRNA contains at least one encoded protein cleavage signal.
  • the encoded protein cleavage signal may be located before the start codon, after the start codon, before the coding region, within the coding region such as, but not limited to, half way in the coding region, between the start codon and the half way point, between the half way point and the stop codon, after the coding region, before the stop codon, between two stop codons, after the stop codon and combinations thereof
  • the primary constructs or mmRNA of the present invention may include at least one encoded protein cleavage signal containing at least one protein cleavage site.
  • the encoded protein cleavage signal may include, but is not limited to, a proprotein convertase (or prohormone convertase), thrombin and/or Factor Xa protein cleavage signal.
  • a proprotein convertase or prohormone convertase
  • thrombin or Factor Xa protein cleavage signal.
  • Factor Xa protein cleavage signal may be used as Table 1 above or other known methods to determine the appropriate encoded protein cleavage signal to include in the primary constructs or mmRNA of the present invention. For example, starting with the signal of Table 7 and considering the codons of Table 1 one can design a signal for the primary construct which can produce a protein signal in the resulting polypeptide.
  • polypeptides of the present invention include at least one protein cleavage signal and/or site.
  • the polypeptides of the present invention include at least one protein cleavage signal and/or site with the proviso that the polypeptide is not GLP-1.
  • the primary constructs or mmRNA of the present invention includes at least one encoded protein cleavage signal and/or site.
  • the primary constructs or mmRNA of the present invention includes at least one encoded protein cleavage signal and/or site with the proviso that the primary construct or mmRNA does not encode GLP-1.
  • the primary constructs or mmRNA of the present invention may include more than one coding region. Where multiple coding regions are present in the primary construct or mmRNA of the present invention, the multiple coding regions may be separated by encoded protein cleavage sites.
  • the primary construct or mmRNA may be signed in an ordered pattern. On such pattern follows AXBY form where A and B are coding regions which may be the same or different coding regions and/or may encode the same or different polypeptides, and X and Y are encoded protein cleavage signals which may encode the same or different protein cleavage signals.
  • a second such pattern follows the form AXYBZ where A and B are coding regions which may be the same or different coding regions and/or may encode the same or different polypeptides, and X, Y and Z are encoded protein cleavage signals which may encode the same or different protein cleavage signals.
  • a third pattern follows the form ABXCY where A, B and C are coding regions which may be the same or different coding regions and/or may encode the same or different polypeptides, and X and Y are encoded protein cleavage signals which may encode the same or different protein cleavage signals.
  • the polypeptides, primary constructs and mmRNA can also contain sequences that encode protein cleavage sites so that the polypeptides, primary constructs and mmRNA can be released from a carrier region or a fusion partner by treatment with a specific protease for said protein cleavage site.
  • the polypeptides, primary constructs and mmRNA of the present invention may include a sequence encoding the 2A peptide. In one embodiment, this sequence may be used to separate the coding region of two or more polypeptides of interest. As a non-limiting example, the sequence encoding the 2A peptide may be between coding region A and coding region B (A-2Apep-B). The presence of the 2A peptide would result in the cleavage of one long protein into protein A, protein B and the 2A peptide. Protein A and protein B may be the same or different polypeptides of interest. In another embodiment, the 2A peptide may be used in the polynucleotides, primary constructs and/or mmRNA of the present invention to produce two, three, four, five, six, seven, eight, nine, ten or more proteins.
  • the polynucleotides, primary constructs and/or mmRNA of the present invention may include at least one post transcriptional control modulator.
  • post transcriptional control modulators may be, but are not limited to, small molecules, compounds and regulatory sequences.
  • post transcriptional control may be achieved using small molecules identified by PTC Therapeutics Inc. (South Plainfield, N.J.) using their GEMSTM (Gene Expression Modulation by Small-Moleclues) screening technology.
  • the post transcriptional control modulator may be a gene expression modulator which is screened by the method detailed in or a gene expression modulator described in International Publication No. WO2006022712, herein incorporated by reference in its entirety. Methods identifying RNA regulatory sequences involved in translational control are described in International Publication No. WO2004067728, herein incorporated by reference in its entirety; methods identifying compounds that modulate untranslated region dependent expression of a gene are described in International Publication No. WO2004065561, herein incorporated by reference in its entirety.
  • the polynucleotides, primary constructs and/or mmRNA of the present invention may include at least one post transcriptional control modulator is located in the 5′ and/or the 3′ untranslated region of the polynucleotides, primary constructs and/or mmRNA of the present invention
  • the polynucleotides, primary constructs and/or mmRNA of the present invention may include at least one post transcription control modulator to modulate premature translation termination.
  • the post transcription control modulators may be compounds described in or a compound found by methods outlined in International Publication Nso. WO2004010106, WO2006044456, WO2006044682, WO2006044503 and WO2006044505, each of which is herein incorporated by reference in its entirety.
  • the compound may bind to a region of the 28S ribosomal RNA in order to modulate premature translation termination (See e.g., WO2004010106, herein incorporated by reference in its entirety).
  • polynucleotides, primary constructs and/or mmRNA of the present invention may include at least one post transcription control modulator to alter protein expression.
  • the expression of VEGF may be regulated using the compounds described in or a compound found by the methods described in International Publication Nos. WO2005118857, WO2006065480, WO2006065479 and WO2006058088, each of which is herein incorporated by reference in its entirety.
  • the polynucleotides, primary constructs and/or mmRNA of the present invention may include at least one post transcription control modulator to control translation.
  • the post transcription control modulator may be a RNA regulatory sequence.
  • the RNA regulatory sequence may be identified by the methods described in International Publication No. WO2006071903, herein incorporated by reference in its entirety.
  • modify refers to modification with respect to A, G, U or C ribonucleotides. Generally, herein, these terms are not intended to refer to the ribonucleotide modifications in naturally occurring 5′-terminal mRNA cap moieties.
  • modification refers to a modification as compared to the canonical set of 20 amino acids, moiety
  • the modifications may be various distinct modifications.
  • the coding region, the flanking regions and/or the terminal regions may contain one, two, or more (optionally different) nucleoside or nucleotide modifications.
  • a modified polynucleotide, primary construct, or mmRNA introduced to a cell may exhibit reduced degradation in the cell, as compared to an unmodified polynucleotide, primary construct, or mmRNA.
  • the polynucleotides, primary constructs, and mmRNA can include any useful modification, such as to the sugar, the nucleobase, or the internucleoside linkage (e.g. to a linking phosphate/to a phosphodiester linkage/to the phosphodiester backbone).
  • One or more atoms of a pyrimidine nucleobase may be replaced or substituted with optionally substituted amino, optionally substituted thiol, optionally substituted alkyl (e.g., methyl or ethyl), or halo (e.g., chloro or fluoro).
  • modifications e.g., one or more modifications
  • RNAs ribonucleic acids
  • DNAs deoxyribonucleic acids
  • TAAs threose nucleic acids
  • GNAs glycol nucleic acids
  • PNAs peptide nucleic acids
  • LNAs locked nucleic acids
  • the polynucleotides, primary constructs, and mmRNA of the invention do not substantially induce an innate immune response of a cell into which the mRNA is introduced.
  • Featues of an induced innate immune response include 1) increased expression of pro-inflammatory cytokines, 2) activation of intracellular PRRs (RIG-I, MDA5, etc, and/or 3) termination or reduction in protein translation.
  • the invention provides a modified nucleic acid molecule containing a degradation domain, which is capable of being acted on in a directed manner within a cell.
  • the present disclosure provides polynucleotides comprising a nucleoside or nucleotide that can disrupt the binding of a major groove interacting, e.g. binding, partner with the polynucleotide (e.g., where the modified nucleotide has decreased binding affinity to major groove interacting partner, as compared to an unmodified nucleotide).
  • the polynucleotides, primary constructs, and mmRNA can optionally include other agents (e.g., RNAi-inducing agents, RNAi agents, siRNAs, shRNAs, miRNAs, antisense RNAs, ribozymes, catalytic DNA, tRNA, RNAs that induce triple helix formation, aptamers, vectors, etc.).
  • the polynucleotides, primary constructs, or mmRNA may include one or more messenger RNAs (mRNAs) and one or more modified nucleoside or nucleotides (e.g., mmRNA molecules). Details for these polynucleotides, primary constructs, and mmRNA follow.
  • the polynucleotides, primary constructs, and mmRNA of the invention includes a first region of linked nucleosides encoding a polypeptide of interest, a first flanking region located at the 5′ terminus of the first region, and a second flanking region located at the 3′ terminus of the first region.
  • the polynucleotide, primary construct, or mmRNA (e.g., the first region, first flanking region, or second flanking region) includes n number of linked nucleosides having Formula (Ia) or Formula (Ia-1):
  • each R U is, independently, H, halo, or optionally substituted alkyl;
  • is a single bond or absent
  • each of R 1′ , R 2′ , R 1′′ , R 2′′ , R 1 , R 2 , R 3 , R 4 , and R 5 is independently, if present, H, halo, hydroxy, thiol, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkoxy, optionally substituted alkoxyalkoxy, optionally substituted hydroxyalkoxy, optionally substituted amino, azido, optionally substituted aryl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, optionally substituted aminoalkynyl, or absent; wherein the combination of R 3 with one or more of R1′, R1′′, R2′, R2′′, or R5 (e.g., the combination of R1′ and R3, the combination of R1′′ and R3, the combination of R2′ and R3, the combination of R2′′ and R3, or
  • each of Y 1 , Y 2 , and Y 3 is, independently, O, S, Se, —NR N1 —, optionally substituted alkylene, or optionally substituted heteroalkylene, wherein R N1 is H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted aryl, or absent;
  • each Y 4 is, independently, H, hydroxy, thiol, boranyl, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted thioalkoxy, optionally substituted alkoxyalkoxy, or optionally substituted amino;
  • each Y 5 is, independently, O, S, Se, optionally substituted alkylene (e.g., methylene), or optionally substituted heteroalkylene;
  • n is an integer from 1 to 100,000;
  • B is a nucleobase (e.g., a purine, a pyrimidine, or derivatives thereof), wherein the combination of B and R 1′ , the combination of B and R 2′ , the combination of B and
  • R 1′′ , or the combination of B and R 2′′ can, taken together with the carbons to which they are attached, optionally form a bicyclic group (e.g., a bicyclic heterocyclyl) or wherein the combination of B, R 1′ , and R 3 or the combination of B, R 2′′ , and R 3 can optionally form a tricyclic or tetracyclic group (e.g., a tricyclic or tetracyclic heterocyclyl, such as in Formula (IIo)-(IIp) herein).
  • the polynucleotide, primary construct, or mmRNA includes a modified ribose.
  • the polynucleotide, primary construct, or mmRNA (e.g., the first region, the first flanking region, or the second flanking region) includes n number of linked nucleosides having Formula (Ia-2)-(Ia-5) or a pharmaceutically acceptable salt or stereoisomer thereof.
  • the polynucleotide, primary construct, or mmRNA (e.g., the first region, the first flanking region, or the second flanking region) includes n number of linked nucleosides having Formula (Ib) or Formula (Ib-1):
  • each R U is, independently, H, halo, or optionally substituted alkyl;
  • is a single bond or absent
  • each of R 1 , R 3′ , R 3′′ , and R 4 is, independently, H, halo, hydroxy, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkoxy, optionally substituted alkoxyalkoxy, optionally substituted hydroxyalkoxy, optionally substituted amino, azido, optionally substituted aryl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, optionally substituted aminoalkynyl, or absent; and wherein the combination of R 1 and R 3′ or the combination of R 1 and R 3′′ can be taken together to form optionally substituted alkylene or optionally substituted heteroalkylene (e.g., to produce a locked nucleic acid);
  • each R 5 is, independently, H, halo, hydroxy, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkoxy, optionally substituted alkoxyalkoxy, or absent;
  • each of Y 1 , Y 2 , and Y 3 is, independently, O, S, Se, —NR N1 —, optionally substituted alkylene, or optionally substituted heteroalkylene, wherein R N1 is H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, or optionally substituted aryl;
  • each Y 4 is, independently, H, hydroxy, thiol, boranyl, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted alkoxyalkoxy, or optionally substituted amino;
  • n is an integer from 1 to 100,000;
  • B is a nucleobase
  • the polynucleotide, primary construct, or mmRNA (e.g., the first region, first flanking region, or second flanking region) includes n number of linked nucleosides having Formula (Ic):
  • each R U is, independently, H, halo, or optionally substituted alkyl;
  • is a single bond or absent
  • each of B 1 , B 2 , and B 3 is, independently, a nucleobase (e.g., a purine, a pyrimidine, or derivatives thereof, as described herein), H, halo, hydroxy, thiol, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkoxy, optionally substituted alkoxyalkoxy, optionally substituted hydroxyalkoxy, optionally substituted amino, azido, optionally substituted aryl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, or optionally substituted aminoalkynyl, wherein one and only one of B 1 , B 2 , and B 3 is a nucleobase;
  • a nucleobase e.g., a purine, a pyrimidine, or derivatives thereof, as described herein
  • H halo, hydroxy, thi
  • each of R b1 , R b2 , R b3 , R 3 , and R 5 is, independently, H, halo, hydroxy, thiol, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkoxy, optionally substituted alkoxyalkoxy, optionally substituted hydroxyalkoxy, optionally substituted amino, azido, optionally substituted aryl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl or optionally substituted aminoalkynyl;
  • each of Y 1 , Y 2 , and Y 3 is, independently, O, S, Se, —NR N1 —, optionally substituted alkylene, or optionally substituted heteroalkylene, wherein R N1 is H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, or optionally substituted aryl;
  • each Y 4 is, independently, H, hydroxy, thiol, boranyl, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted thioalkoxy, optionally substituted alkoxyalkoxy, or optionally substituted amino;
  • each Y 5 is, independently, O, S, Se, optionally substituted alkylene (e.g., methylene), or optionally substituted heteroalkylene;
  • n is an integer from 1 to 100,000;
  • ring including U can include one or more double bonds.
  • the ring including U does not have a double bond between U-CB 3 R b3 or between CB3R b3 —C B2 R b2 .
  • the polynucleotide, primary construct, or mmRNA (e.g., the first region, first flanking region, or second flanking region) includes n number of linked nucleosides having Formula (Id):
  • each R U is, independently, H, halo, or optionally substituted alkyl;
  • each R 3 is, independently, H, halo, hydroxy, thiol, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkoxy, optionally substituted alkoxyalkoxy, optionally substituted hydroxyalkoxy, optionally substituted amino, azido, optionally substituted aryl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, or optionally substituted aminoalkynyl;
  • each of Y 1 , Y 2 , and Y 3 is, independently, O, S, Se, —NR N1 —, optionally substituted alkylene, or optionally substituted heteroalkylene, wherein R N1 is H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, or optionally substituted aryl;
  • each Y 4 is, independently, H, hydroxy, thiol, boranyl, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted thioalkoxy, optionally substituted alkoxyalkoxy, or optionally substituted amino;
  • each Y 5 is, independently, O, S, optionally substituted alkylene (e.g., methylene), or optionally substituted heteroalkylene;
  • n is an integer from 1 to 100,000;
  • B is a nucleobase (e.g., a purine, a pyrimidine, or derivatives thereof).
  • the polynucleotide, primary construct, or mmRNA (e.g., the first region, first flanking region, or second flanking region) includes n number of linked nucleosides having Formula (Ie):
  • each of U′ and U′′ is, independently, O, S, N(R U ) nu , or C(R U ) nu , wherein nu is an integer from 0 to 2 and each R U is, independently, H, halo, or optionally substituted alkyl;
  • each R 6 is, independently, H, halo, hydroxy, thiol, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkoxy, optionally substituted alkoxyalkoxy, optionally substituted hydroxyalkoxy, optionally substituted amino, azido, optionally substituted aryl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, or optionally substituted aminoalkynyl;
  • each Y 5′ is, independently, O, S, optionally substituted alkylene (e.g., methylene or ethylene), or optionally substituted heteroalkylene;
  • n is an integer from 1 to 100,000;
  • B is a nucleobase (e.g., a purine, a pyrimidine, or derivatives thereof).
  • the polynucleotide, primary construct, or mmRNA (e.g., the first region, first flanking region, or second flanking region) includes n number of linked nucleosides having Formula (If) or (If-1):
  • each of U′ and U′′ is, independently, O, S, N, N(R U ) nu , or C(R U ) nu , wherein nu is an integer from 0 to 2 and each R U is, independently, H, halo, or optionally substituted alkyl (e.g., U′ is 0 and U′′ is N);
  • is a single bond or absent
  • each of R 1′ , R 2′ , R 1′′ , R 2′′ , R 3 , and R 4 is, independently, H, halo, hydroxy, thiol, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkoxy, optionally substituted alkoxyalkoxy, optionally substituted hydroxyalkoxy, optionally substituted amino, azido, optionally substituted aryl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, optionally substituted aminoalkynyl, or absent; and wherein the combination of R 1′ and R 3 , the combination of R 1′′ and R 3 , the combination of R 2′ and R 3 , or the combination of R 2′′ and R 3 can be taken together to form optionally substituted alkylene or optionally substituted heteroalkylene (e.g., to produce a locked nucleic acid);each of m
  • each of Y 1 , Y 2 , and Y 3 is, independently, O, S, Se, —NR N1 —, optionally substituted alkylene, or optionally substituted heteroalkylene, wherein R N1 is H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted aryl, or absent;
  • each Y 4 is, independently, H, hydroxy, thiol, boranyl, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted thioalkoxy, optionally substituted alkoxyalkoxy, or optionally substituted amino;
  • each Y 5 is, independently, O, S, Se, optionally substituted alkylene (e.g., methylene), or optionally substituted heteroalkylene;
  • n is an integer from 1 to 100,000;
  • B is a nucleobase (e.g., a purine, a pyrimidine, or derivatives thereof).
  • the ring including U has one or two double bonds.
  • polynucleotides, primary constructs, or mmRNA e.g., Formulas (Ia)-(Ia-5), (Ib)-(If-1), (IIa)-(IIp), (IIb-1), (IIb-2), (IIc-1)-(IIc-2), (IIn-1), (IIn-2), (IVa)-(IVl), and (IXa)-(IXr)), each of R 1 , R 1′ , and R 1′′ , if present, is H.
  • Formulas (Ia)-(Ia-5), (Ib)-(If-1), (IIa)-(IIp), (IIb-1), (IIb-2), (IIc-1)-(IIc-2), (IIn-1), (IIn-2), (IVa)-(IVl), and (IXa)-(IXr) each of R 1 , R 1′ , and R 1′′ , if present, is H.
  • each of R 2 , R 2′ , and R 2′′ is, independently, H, halo (e.g., fluoro), hydroxy, optionally substituted alkoxy (e.g., methoxy or ethoxy), or optionally substituted alkoxyalkoxy.
  • alkoxyalkoxy is —(CH 2 ) s2 (OCH 2 CH 2 ) s1 (CH 2 ) s3 OR′, wherein s1 is an integer from 1 to 10 (e.g., from 1 to 6 or from 1 to 4), each of s2 and s3, independently, is an integer from 0 to 10 (e.g., from 0 to 4, from 0 to 6, from 1 to 4, from 1 to 6, or from 1 to 10), and R′ is H or C 1-20 alkyl). In some embodiments, s2 is 0, s1 is 1 or 2, s3 is 0 or 1, and R′ is C 1-6 alkyl.
  • polynucleotides, primary constructs, or mmRNA e.g., Formulas (Ia)-(Ia-5), (Ib)-(If-1), (IIa)-(IIp), (IIb-1), (IIb-2), (IIc-1)-(IIc-2), (IIn-1), (IIn-2), (IVa)-(IVl), and (IXa)-(IXr)), each of R 2 , R 2′ , and R 2′′ , if present, is H.
  • Formulas (Ia)-(Ia-5), (Ib)-(If-1), (IIa)-(IIp), (IIb-1), (IIb-2), (IIc-1)-(IIc-2), (IIn-1), (IIn-2), (IVa)-(IVl), and (IXa)-(IXr) each of R 2 , R 2′ , and R 2′′ , if present, is H.
  • each of R 1 , R 1′ , and R 1′′ is, independently, H, halo (e.g., fluoro), hydroxy, optionally substituted alkoxy (e.g., methoxy or ethoxy), or optionally substituted alkoxyalkoxy.
  • alkoxyalkoxy is —(CH 2 ) s2 (OCH 2 CH 2 ) s1 (CH 2 ) s3 OR′, wherein s1 is an integer from 1 to 10 (e.g., from 1 to 6 or from 1 to 4), each of s2 and s3, independently, is an integer from 0 to 10 (e.g., from 0 to 4, from 0 to 6, from 1 to 4, from 1 to 6, or from 1 to 10), and R′ is H or C 1-20 alkyl). In some embodiments, s2 is 0, s1 is 1 or 2, s3 is 0 or 1, and R′ is C 1-6 alkyl.
  • each of R 3 , R 4 , and R 5 is, independently, H, halo (e.g., fluoro), hydroxy, optionally substituted alkyl, optionally substituted alkoxy (e.g., methoxy or ethoxy), or optionally substituted alkoxyalkoxy.
  • R 3 is H, R 4 is H, R 5 is H, or R 3 , R 4 , and R 5 are all H.
  • R 3 is C 1-6 alkyl
  • R 4 is C 1-6 alkyl
  • R 5 is C 1-6 alkyl
  • R 3 and R 4 are both H
  • R 5 is C 1-6 alkyl.
  • R 3 and R 5 join together to form optionally substituted alkylene or optionally substituted heteroalkylene and, taken together with the carbons to which they are attached, provide an optionally substituted heterocyclyl (e.g., a bicyclic, tricyclic, or tetracyclic heterocyclyl, such as trans-3′,4′ analogs, wherein R 3 and R 5 join together to form heteroalkylene (e.g., —(CH 2 ) b1 O(CH 2 ) b2 O(CH 2 ) b3
  • R 3 and one or more of R 1′ , R 1′′ , R 2′ , R 2′′ , or R 5 join together to form optionally substituted alkylene or optionally substituted heteroalkylene and, taken together with the carbons to which they are attached, provide an optionally substituted heterocyclyl (e.g., a bicyclic, tricyclic, or tetracyclic heterocyclyl, R 3 and one or more of R 1′ , R 1′′ , R 2′ , R 2′′ , or R 5 join together to form heteroal
  • R 5 and one or more of R 1′ , R 1′′ , R 2′ , or R 2′′ join together to form optionally substituted alkylene or optionally substituted heteroalkylene and, taken together with the carbons to which they are attached, provide an optionally substituted heterocyclyl (e.g., a bicyclic, tricyclic, or tetracyclic heterocyclyl, R 5 and one or more of R 1′ , R 1′′ , R 2′ , or R 2′′ join together to form heteroalkylene (e.g.,
  • each Y 2 is, independently, O, S, or —NR N1 —, wherein R N1 is H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, or optionally substituted aryl.
  • Y 2 is NR N1 —, wherein R N1 is H or optionally substituted alkyl (e.g., C 1-6 alkyl, such as methyl, ethyl, isopropyl, or n-propyl).
  • R N1 is H or optionally substituted alkyl (e.g., C 1-6 alkyl, such as methyl, ethyl, isopropyl, or n-propyl).
  • each Y 3 is, independently, O or S.
  • R 1 is H; each R 2 is, independently, H, halo (e.g., fluoro), hydroxy, optionally substituted alkoxy (e.g., methoxy or ethoxy), or optionally substituted alkoxyalkoxy (e.g., —(CH 2 ) s2 (OCH 2 CH 2 ) s1 (CH 2 ) s3 OR′, wherein s1 is an integer from 1 to 10 (e.g., from 1 to 6 or from 1 to 4), each of s2 and s3,
  • R 3 is H, halo (e.g., fluoro), hydroxy, optionally substituted alkyl, optionally substituted alkoxy (e.g., methoxy or ethoxy), or optionally substituted alkoxyalkoxy.
  • halo e.g., fluoro
  • hydroxy optionally substituted alkyl
  • optionally substituted alkoxy e.g., methoxy or ethoxy
  • optionally substituted alkoxyalkoxy optionally substituted alkoxyalkoxy.
  • each Y 1 is, independently, O or —NR N1 —, wherein R N1 is H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, or optionally substituted aryl (e.g., wherein R N1 is H or optionally substituted alkyl (e.g., C 1-6 alkyl, such as methyl, ethyl, isopropyl, or n-propyl)); and each Y 4 is, independently, H, hydroxy, thiol, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted thioalkoxy, optionally substituted alkoxyalkoxy, or optionally substituted amino.
  • R N1 is H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, or optionally substituted aryl (e.g., wherein R N1 is H or optionally substituted alkyl (e.g.
  • each R 1 is, independently, H, halo (e.g., fluoro), hydroxy, optionally substituted alkoxy (e.g., methoxy or ethoxy), or optionally substituted alkoxyalkoxy (e.g., —(CH 2 ) s2 (OCH 2 CH 2 ) s1 (CH 2 ) s3 OR′, wherein s1 is an integer from 1 to 10 (e.g., from 1 to 6 or from 1 to 4), each of s2 and s3, independently, is an integer
  • R 3 is H, halo (e.g., fluoro), hydroxy, optionally substituted alkyl, optionally substituted alkoxy (e.g., methoxy or ethoxy), or optionally substituted alkoxyalkoxy.
  • halo e.g., fluoro
  • hydroxy optionally substituted alkyl
  • optionally substituted alkoxy e.g., methoxy or ethoxy
  • optionally substituted alkoxyalkoxy optionally substituted alkoxyalkoxy.
  • each Y 1 is, independently, O or —NR N1 —, wherein R N1 is H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, or optionally substituted aryl (e.g., wherein R N1 is H or optionally substituted alkyl (e.g., C 1-6 alkyl, such as methyl, ethyl, isopropyl, or n-propyl)); and each Y 4 is, independently, H, hydroxy, thiol, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted thioalkoxy, optionally substituted alkoxyalkoxy, or optionally substituted amino.
  • R N1 is H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, or optionally substituted aryl (e.g., wherein R N1 is H or optionally substituted alkyl (e.g.
  • the ring including U is in the ⁇ -D (e.g., ⁇ -D-ribo) configuration.
  • the ring including U is in the ⁇ -L (e.g., ⁇ -L-ribo) configuration.
  • one or more B is not pseudouridine ( ⁇ ) or 5-methyl-cytidine (m 5 C).
  • about 10% to about 100% of n number of B nucleobases is not ⁇ or m 5 C (e.g., from 10% to 20%, from 10% to 35%, from 10% to 50%, from 10% to 60%, from 10% to 75%, from 10% to 90%, from 10% to 95%, from 10% to 98%, from 10% to 99%, from 20% to 35%, from 20% to 50%, from 20% to 60%, from 20% to 75%, from 20% to 90%, from 20% to 95%, from 20% to 98%, from 20% to 99%, from 20% to 100%, from 50% to 60%, from 50% to 75%, from 50% to 90%, from 50% to 95%, from 50% to 98%, from 50% to 99%, from 50% to 100%, from 75% to 90%, from 75% to 95%, from 75% to 98%, from 75% to 99%, and from 75% to 100% of n number of B is not ⁇ or m 5 C).
  • B is not ⁇ or m 5 C.
  • polynucleotides, primary constructs, or mmRNA e.g., Formulas (Ia)-(Ia-5), (Ib)-(If-1), (IIa)-(IIp), (IIb-1), (IIb-2), (IIc-1)-(IIc-2), (IIn-1), (IIn-2), (IVa)-(IVl), and (IXa)-(IXr)
  • B is an unmodified nucleobase selected from cytosine, guanine, uracil and adenine
  • at least one of Y 1 , Y 2 , or Y 3 is not O.
  • the polynucleotide, primary construct, or mmRNA includes a modified ribose.
  • the polynucleotide, primary construct, or mmRNA e.g., the first region, the first flanking region, or the second flanking region
  • U is O or C(R U ) nu , wherein nu is an integer from 0 to 2 and each R U is, independently, H, halo, or optionally substituted alkyl (e.g., U is —CH 2 — or —CH—).
  • each of R 1 , R 2 , R 3 , R 4 , and R 5 is, independently, H, halo, hydroxy, thiol, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkoxy, optionally substituted alkoxyalkoxy, optionally substituted hydroxyalkoxy, optionally substituted amino, azido, optionally substituted aryl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, optionally substituted aminoalkynyl, or absent (e.g., each R 1 and R 2 is, independently, H, halo, hydroxy, optionally substituted alkyl, or optionally substituted alkoxy; each R 3 and R 4 is, independently, H or optionally substituted alkyl; and R 5 is H or hydroxy), and is a single bond or double bond.
  • the polynucleotidesor mmRNA includes n number of linked nucleosides having Formula (IIb-1)-(IIb-2):
  • U is O or C(R U ) nu , wherein nu is an integer from 0 to 2 and each R U is, independently, H, halo, or optionally substituted alkyl (e.g., U is —CH 2 — or —CH—).
  • each of R 1 and R 2 is, independently, H, halo, hydroxy, thiol, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkoxy, optionally substituted alkoxyalkoxy, optionally substituted hydroxyalkoxy, optionally substituted amino, azido, optionally substituted aryl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, optionally substituted aminoalkynyl, or absent (e.g., each R 1 and R 2 is, independently, H, halo, hydroxy, optionally substituted alkyl, or optionally substituted alkoxy, e.g., H, halo, hydroxy, alkyl, or alkoxy).
  • R 2 is hydroxy or optionally substituted alkoxy (e.g., methoxy, ethoxy, or any described herein).
  • the polynucleotide, primary construct, or mmRNA includes n number of linked nucleosides having Formula (IIc-1)-(IIc-4):
  • U is O or C(R U ) nu , wherein nu is an integer from 0 to 2 and each R U is, independently, H, halo, or optionally substituted alkyl (e.g., U is —CH 2 — or —CH—).
  • each of R 1 , R 2 , and R 3 is, independently, H, halo, hydroxy, thiol, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkoxy, optionally substituted alkoxyalkoxy, optionally substituted hydroxyalkoxy, optionally substituted amino, azido, optionally substituted aryl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, optionally substituted aminoalkynyl, or absent (e.g., each R 1 and R 2 is, independently, H, halo, hydroxy, optionally substituted alkyl, or optionally substituted alkoxy, e.g., H, halo, hydroxy, alkyl, or alkoxy; and each R 3 is, independently, H or optionally substituted alkyl)).
  • R 2 is optionally substituted alkoxy (e.g., methoxy or ethoxy, or any described herein).
  • R 1 is optionally substituted alkyl
  • R 2 is hydroxy.
  • R 1 is hydroxy
  • R 2 is optionally substituted alkyl.
  • R 3 is optionally substituted alkyl.
  • the polynucleotide, primary construct, or mmRNA includes an acyclic modified ribose.
  • the polynucleotide, primary construct, or mmRNA e.g., the first region, the first flanking region, or the second flanking region
  • the polynucleotide, primary construct, or mmRNA includes n number of linked nucleosides having Formula (IId)-(IIf):
  • the polynucleotide, primary construct, or mmRNA includes an acyclic modified hexitol.
  • the polynucleotide, primary construct, or mmRNA e.g., the first region, the first flanking region, or the second flanking region
  • the polynucleotide, primary construct, or mmRNA includes a sugar moiety having a contracted or an expanded ribose ring.
  • the polynucleotide, primary construct, or mmRNA e.g., the first region, the first flanking region, or the second flanking region
  • each of R 1′ , R 1′′ , R 2′ , and R 2′′ is, independently, H, halo, hydroxy, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkoxy, optionally substituted alkoxyalkoxy, or absent; and wherein the combination of R 2′ and R 3 or the combination of R 2′′ and R 3 can be taken together to form optionally substituted alkylene or optionally substituted heteroalkylene.
  • the polynucleotide, primary construct, or mmRNA includes a locked modified ribose.
  • the polynucleotide, primary construct, or mmRNA e.g., the first region, the first flanking region, or the second flanking region
  • the polynucleotide, primary construct, or mmRNA includes n number of linked nucleosides having Formula (IIn):
  • R 3′ is O, S, or —NR N1 —, wherein R N1 is H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, or optionally substituted aryl and R 3′′ is optionally substituted alkylene (e.g., —CH 2 —, —CH 2 CH 2 —, or —CH 2 CH 2 CH 2 —) or optionally substituted heteroalkylene (e.g., —CH 2 NH—, —CH 2 CH 2 NH—, —CH 2 OCH 2 —, or —CH 2 CH 2 OCH 2 —)(e.g., R 3′ is O and R 3′′ is optionally substituted alkylene (e.g., —CH 2 —, —CH 2 CH 2 —, or —CH 2 CH 2 CH 2 —)).
  • the polynucleotide, primary construct, or mmRNA includes n number of linked nucleosides having Formula (IIn-1)-(II-n2):
  • R 3′ is O, S, or —NR N1 —, wherein R N1 is H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, or optionally substituted aryl and R 3′′ is optionally substituted alkylene (e.g., —CH 2 —, —CH 2 CH 2 —, or —CH 2 CH 2 CH 2 —) or optionally substituted heteroalkylene (e.g., —CH 2 NH—, —CH 2 CH 2 NH—, —CH 2 OCH 2 —, or —CH 2 CH 2 OCH 2 —) (e.g., R 3′ is O and R 3′′ is optionally substituted alkylene (e.g., —CH 2 —, —CH 2 CH 2 —, or —CH 2 CH 2 CH 2 —)).
  • the polynucleotide, primary construct, or mmRNA includes a locked modified ribose that forms a tetracyclic heterocyclyl.
  • the polynucleotide, primary construct, or mmRNA e.g., the first region, the first flanking region, or the second flanking region
  • R 12a , R 12c , T 1′ , T 1′′ , T 2′ , T 2′′ , V 1 , and V 3 are as described herein.
  • any of the formulas for the polynucleotides, primary constructs, or mmRNA can include one or more nucleobases described herein (e.g., Formulas (b1)-(b43)).
  • the present invention provides methods of preparing a polynucleotide, primary construct, or mmRNA, wherein the polynucleotide comprises n number of nucleosides having Formula (Ia), as defined herein:
  • the present invention provides methods of amplifying a polynucleotide, primary construct, or mmRNA comprising at least one nucleotide (e.g., mmRNA molecule), the method comprising: reacting a compound of Formula (IIIa), as defined herein, with a primer, a cDNA template, and an RNA polymerase.
  • a nucleotide e.g., mmRNA molecule
  • the present invention provides methods of preparing a polynucleotide, primary construct, or mmRNA comprising at least one nucleotide (e.g., mmRNA molecule), wherein the polynucleotide comprises n number of nucleosides having Formula (Ia), as defined herein:
  • the present invention provides methods of amplifying a polynucleotide, primary construct, or mmRNA comprising at least one nucleotide (e.g., mmRNA molecule), the method comprising:
  • the present invention provides methods of preparing a modified mRNA comprising at least one nucleotide (e.g., mmRNA molecule), wherein the polynucleotide comprises n number of nucleosides having Formula (Ia-2), as defined herein:
  • the present invention provides methods of amplifying a modified mRNA comprising at least one nucleotide (e.g., mmRNA molecule), the method comprising:
  • reaction may be repeated from 1 to about 7,000 times.
  • B may be a nucleobase of Formula (b1)-(b43).
  • polynucleotides, primary constructs, and mmRNA can optionally include 5′ and/or 3′ flanking regions, which are described herein.
  • RNA Modified RNA (mmRNA) Molecules
  • the present invention also includes building blocks, e.g., modified ribonucleosides, modified ribonucleotides, of modified RNA (mmRNA) molecules.
  • building blocks e.g., modified ribonucleosides, modified ribonucleotides, of modified RNA (mmRNA) molecules.
  • these building blocks can be useful for preparing the polynucleotides, primary constructs, or mmRNA of the invention.
  • the building block molecule has Formula (IIIa) or (IIIa-1):
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, has Formula (IVa)-(IVb):
  • Formula (IVa) or (IVb) is combined with a modified uracil (e.g., any one of formulas (b1)-(b9), (b21)-(b23), and (b28)-(b31), such as formula (b1), (b8), (b28), (b29), or (b30)).
  • a modified uracil e.g., any one of formulas (b1)-(b9), (b21)-(b23), and (b28)-(b31), such as formula (b1), (b8), (b28), (b29), or (b30)
  • Formula (IVa) or (IVb) is combined with a modified cytosine (e.g., any one of formulas (b10)-(b14), (b24), (b25), and (b32)-(b36), such as formula (b10) or (b32)).
  • a modified cytosine e.g., any one of formulas (b10)-(b14), (b24), (b25), and (b32)-(b36), such as formula (b10) or (b32)
  • Formula (IVa) or (IVb) is combined with a modified guanine (e.g., any one of formulas (b15)-(b17) and (b37)-(b40)).
  • Formula (IVa) or (IVb) is combined with a modified adenine (e.g., any one of formulas (b18)-(b20) and (b41)-(b43)).
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, has Formula (IVc)-(IVk):
  • one of Formulas (IVc)-(IVk) is combined with a modified uracil (e.g., any one of formulas (b1)-(b9), (b21)-(b23), and (b28)-(b31), such as formula (b1), (b8), (b28), (b29), or (b30)).
  • a modified uracil e.g., any one of formulas (b1)-(b9), (b21)-(b23), and (b28)-(b31), such as formula (b1), (b8), (b28), (b29), or (b30)
  • one of Formulas (IVc)-(IVk) is combined with a modified cytosine (e.g., any one of formulas (b10)-(b14), (b24), (b25), and (b32)-(b36), such as formula (b10) or (b32)).
  • one of Formulas (IVc)-(IVk) is combined with a modified guanine (e.g., any one of formulas (b15)-(b17) and (b37)-(b40)).
  • one of Formulas (IVc)-(IVk) is combined with a modified adenine (e.g., any one of formulas (b18)-(b20) and (b41)-(b43)).
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, has Formula (Va) or (Vb):
  • B is as described herein (e.g., any one of (b1)-(b43)).
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, has Formula (IXa)-(IXd):
  • one of Formulas (IXa)-(IXd) is combined with a modified uracil (e.g., any one of formulas (b1)-(b9), (b21)-(b23), and (b28)-(b31), such as formula (b1), (b8), (b28), (b29), or (b30)).
  • a modified uracil e.g., any one of formulas (b1)-(b9), (b21)-(b23), and (b28)-(b31), such as formula (b1), (b8), (b28), (b29), or (b30)
  • one of Formulas (IXa)-(IXd) is combined with a modified cytosine (e.g., any one of formulas (b10)-(b14), (b24), (b25), and (b32)-(b36), such as formula (b10) or (b32)).
  • one of Formulas (IXa)-(IXd) is combined with a modified guanine (e.g., any one of formulas (b15)-(b17) and (b37)-(b40)).
  • one of Formulas (IXa)-(IXd) is combined with a modified adenine (e.g., any one of formulas (b18)-(b20) and (b41)-(b43)).
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, has Formula (IXe)-(IXg):
  • one of Formulas (IXe)-(IXg) is combined with a modified uracil (e.g., any one of formulas (b1)-(b9), (b21)-(b23), and (b28)-(b31), such as formula (b1), (b8), (b28), (b29), or (b30)).
  • a modified uracil e.g., any one of formulas (b1)-(b9), (b21)-(b23), and (b28)-(b31), such as formula (b1), (b8), (b28), (b29), or (b30)
  • one of Formulas (IXe)-(IXg) is combined with a modified cytosine (e.g., any one of formulas (b10)-(b14), (b24), (b25), and (b32)-(b36), such as formula (b10) or (b32)).
  • one of Formulas (IXe)-(IXg) is combined with a modified guanine (e.g., any one of formulas (b15)-(b17) and (b37)-(b40)).
  • one of Formulas (IXe)-(IXg) is combined with a modified adenine (e.g., any one of formulas (b18)-(b20) and (b41)-(b43)).
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, has Formula (IXh)-(IXk):
  • one of Formulas (IXh)-(IXk) is combined with a modified uracil (e.g., any one of formulas (b1)-(b9), (b21)-(b23), and (b28)-(b31), such as formula (b1), (b8), (b28), (b29), or (b30)).
  • a modified uracil e.g., any one of formulas (b1)-(b9), (b21)-(b23), and (b28)-(b31), such as formula (b1), (b8), (b28), (b29), or (b30)
  • one of Formulas (IXh)-(IXk) is combined with a modified cytosine (e.g., any one of formulas (b10)-(b14), (b24), (b25), and (b32)-(b36), such as formula (b10) or (b32)).
  • one of Formulas (IXh)-(IXk) is combined with a modified guanine (e.g., any one of formulas (b15)-(b17) and (b37)-(b40)).
  • one of Formulas (IXh)-(IXk) is combined with a modified adenine (e.g., any one of formulas (b18)-(b20) and (b41)-(b43)).
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, has Formula (IXl)-(IXr):
  • each r1 and r2 is, independently, an integer from 0 to 5 (e.g., from 0 to 3, from 1 to 3, or from 1 to 5) and B is as described herein (e.g., any one of (b1)-(b43)).
  • one of Formulas (IXl)-(IXr) is combined with a modified uracil (e.g., any one of formulas (b1)-(b9), (b21)-(b23), and (b28)-(b31), such as formula (b1), (b8), (b28), (b29), or (b30)).
  • one of Formulas (IXl)-(IXr) is combined with a modified cytosine (e.g., any one of formulas (b10)-(b14), (b24), (b25), and (b32)-(b36), such as formula (b10) or (b32)).
  • one of Formulas (IXl)-(IXr) is combined with a modified guanine (e.g., any one of formulas (b15)-(b17) and (b37)-(b40)).
  • one of Formulas (IXl)-(IXr) is combined with a modified adenine (e.g., any one of formulas (b18)-(b20) and (b41)-(b43)).
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, can be selected from the group consisting of:
  • each r is, independently, an integer from 0 to 5 (e.g., from 0 to 3, from 1 to 3, or from 1 to 5).
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, can be selected from the group consisting of:
  • each r is, independently, an integer from 0 to 5 (e.g., from 0 to 3, from 1 to 3, or from 1 to 5) and s1 is as described herein.
  • the building block molecule which may be incorporated into a nucleic acid (e.g., RNA, mRNA, polynucleotide, primary construct, or mmRNA), is a modified uridine (e.g., selected from the group consisting of:
  • Y 1 , Y 3 , Y 4 , Y 6 , and r are as described herein (e.g., each r is, independently, an integer from 0 to 5, such as from 0 to 3, from 1 to 3, or from 1 to 5)).
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, is a modified cytidine (e.g., selected from the group consisting of:
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, can be:
  • each r is, independently, an integer from 0 to 5 (e.g., from 0 to 3, from 1 to 3, or from 1 to 5).
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, is a modified adenosine (e.g., selected from the group consisting of:
  • Y 1 , Y 3 , Y 4 , Y 6 , and r are as described herein (e.g., each r is, independently, an integer from 0 to 5, such as from 0 to 3, from 1 to 3, or from 1 to 5)).
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, is a modified guanosine (e.g., selected from the group consisting of:
  • Y 1 , Y 3 , Y 4 , Y 6 , and r are as described herein (e.g., each r is, independently, an integer from 0 to 5, such as from 0 to 3, from 1 to 3, or from 1 to 5)).
  • the chemical modification can include replacement of C group at C-5 of the ring (e.g., for a pyrimidine nucleoside, such as cytosine or uracil) with N (e.g., replacement of the >CH group at C-5 with >NR N1 group, wherein R N 1 is H or optionally substituted alkyl).
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, can be:
  • each r is, independently, an integer from 0 to 5 (e.g., from 0 to 3, from 1 to 3, or from 1 to 5).
  • the chemical modification can include replacement of the hydrogen at C-5 of cytosine with halo (e.g., Br, Cl, F, or I) or optionally substituted alkyl (e.g., methyl).
  • halo e.g., Br, Cl, F, or I
  • optionally substituted alkyl e.g., methyl
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, can be:
  • each r is, independently, an integer from 0 to 5 (e.g., from 0 to 3, from 1 to 3, or from 1 to 5).
  • the chemical modification can include a fused ring that is formed by the NH 2 at the C-4 position and the carbon atom at the C-5 position.
  • the building block molecule which may be incorporated into a polynucleotide, primary construct, or mmRNA, can be:
  • each r is, independently, an integer from 0 to 5 (e.g., from 0 to 3, from 1 to 3, or from 1 to 5).
  • modified nucleosides and nucleotides which may be incorporated into a polynucleotide, primary construct, or mmRNA (e.g., RNA or mRNA, as described herein), can be modified on the sugar of the ribonucleic acid.
  • the 2′ hydroxyl group (OH) can be modified or replaced with a number of different substituents.
  • substitutions at the 2′-position include, but are not limited to, H, halo, optionally substituted C 1-6 alkyl; optionally substituted C 1-6 alkoxy; optionally substituted C 6-10 aryloxy; optionally substituted C 3-8 cycloalkyl; optionally substituted C 3-8 cycloalkoxy; optionally substituted C 6-10 aryloxy; optionally substituted C 6-10 aryl-C 1-6 alkoxy, optionally substituted C 1-12 (heterocyclyl)oxy; a sugar (e.g., ribose, pentose, or any described herein); a polyethyleneglycol (PEG), —O(CH 2 CH 2 O) n CH 2 CH 2 OR, where R is H or optionally substituted alkyl, and n is an integer from 0 to 20 (e.g., from 0 to 4, from 0 to 8, from 0 to 10, from 0 to 16, from 1 to 4, from 1 to 8, from 1 to 10, from 1 to 16, from
  • RNA includes the sugar group ribose, which is a 5-membered ring having an oxygen.
  • modified nucleotides include replacement of the oxygen in ribose (e.g., with S, Se, or alkylene, such as methylene or ethylene); addition of a double bond (e.g., to replace ribose with cyclopentenyl or cyclohexenyl); ring contraction of ribose (e.g., to form a 4-membered ring of cyclobutane or oxetane); ring expansion of ribose (e.g., to form a 6- or 7-membered ring having an additional carbon or heteroatom, such as for anhydrohexitol, altritol, mannitol, cyclohexanyl, cyclohexenyl, and morpholino that also has a phosphoramidate backbone); multicyclic forms (e.
  • the sugar group can also contain one or more carbons that possess the opposite stereochemical configuration than that of the corresponding carbon in ribose.
  • a polynucleotide, primary construct, or mmRNA molecule can include nucleotides containing, e.g., arabinose, as the sugar.
  • nucleoside is defined as a compound containing a sugar molecule (e.g., a pentose or ribose) or a derivative thereof in combination with an organic base (e.g., a purine or pyrimidine) or a derivative thereof (also referred to herein as “nucleobase”).
  • organic base e.g., a purine or pyrimidine
  • nucleotide is defined as a nucleoside including a phosphate group.
  • the modified nucleotides may by synthesized by any useful method, as described herein (e.g., chemically, enzymatically, or recombinantly to include one or more modified or non-natural nucleosides).
  • the modified nucleotide base pairing encompasses not only the standard adenosine-thymine, adenosine-uracil, or guanosine-cytosine base pairs, but also base pairs formed between nucleotides and/or modified nucleotides comprising non-standard or modified bases, wherein the arrangement of hydrogen bond donors and hydrogen bond acceptors permits hydrogen bonding between a non-standard base and a standard base or between two complementary non-standard base structures.
  • non-standard base pairing is the base pairing between the modified nucleotide inosine and adenine, cytosine or uracil.
  • the modified nucleosides and nucleotides can include a modified nucleobase.
  • nucleobases found in RNA include, but are not limited to, adenine, guanine, cytosine, and uracil.
  • nucleobase found in DNA include, but are not limited to, adenine, guanine, cytosine, and thymine.
  • These nucleobases can be modified or wholly replaced to provide polynucleotides, primary constructs, or mmRNA molecules having enhanced properties, e.g., resistance to nucleases through disruption of the binding of a major groove binding partner.
  • Table 8 below identifies the chemical faces of each canonical nucleotide. Circles identify the atoms comprising the respective chemical regions.
  • B is a modified uracil.
  • exemplary modified uracils include those having Formula (b1)-(b5):
  • each of T 1′ , T 1′′ , T 2′ , and T 2′′ is, independently, H, optionally substituted alkyl, optionally substituted alkoxy, or optionally substituted thioalkoxy, or the combination of T 1′ and T 1′′ or the combination of T 2′ and T 2′′ join together (e.g., as in T 2 ) to form 0 (oxo), S (thio), or Se (seleno);
  • each of V 1 and V 2 is, independently, O, S, N(R Vb ) nv , or C(R Vb ) nv , wherein nv is an integer from 0 to 2 and each R Vb is, independently, H, halo, optionally substituted amino acid, optionally substituted alkyl, optionally substituted haloalkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted hydroxyalkyl, optionally substituted hydroxyalkenyl, optionally substituted hydroxyalkynyl, optionally substituted aminoalkyl (e.g., substituted with an N-protecting group, such as any described herein, e.g., trifluoroacetyl), optionally substituted aminoalkenyl, optionally substituted aminoalkynyl, optionally substituted acylaminoalkyl
  • R 10 is H, halo, optionally substituted amino acid, hydroxy, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted aminoalkyl, optionally substituted hydroxyalkyl, optionally substituted hydroxyalkenyl, optionally substituted hydroxyalkynyl, optionally substituted aminoalkenyl, optionally substituted aminoalkynyl, optionally substituted alkoxy, optionally substituted alkoxycarbonylalkyl, optionally substituted alkoxycarbonylalkenyl, optionally substituted alkoxycarbonylalkynyl, optionally substituted alkoxycarbonylalkoxy, optionally substituted carboxyalkoxy, optionally substituted carboxyalkyl, or optionally substituted carbamoylalkyl;
  • R 11 is H or optionally substituted alkyl
  • R 12a is H, optionally substituted alkyl, optionally substituted hydroxyalkyl, optionally substituted hydroxyalkenyl, optionally substituted hydroxyalkynyl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, or optionally substituted aminoalkynyl, optionally substituted carboxyalkyl (e.g., optionally substituted with hydroxy), optionally substituted carboxyalkoxy, optionally substituted carboxyaminoalkyl, or optionally substituted carbamoylalkyl; and
  • R 12c is H, halo, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted thioalkoxy, optionally substituted amino, optionally substituted hydroxyalkyl, optionally substituted hydroxyalkenyl, optionally substituted hydroxyalkynyl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, or optionally substituted aminoalkynyl.
  • exemplary modified uracils include those having Formula (b6)-(b9):
  • each of T 1′ , T 1′′ , T 2′ , and T 2′′ is, independently, H, optionally substituted alkyl, optionally substituted alkoxy, or optionally substituted thioalkoxy, or the combination of T 1′ and T 1′′ join together (e.g., as in T 1 ) or the combination of T 2′ and T 2′′ join together (e.g., as in T 2 ) to form 0 (oxo), S (thio), or Se (seleno), or each T 1 and T 2 is, independently, O (oxo), S (thio), or Se (seleno);
  • each of W 1 and W 2 is, independently, N(R Wa ) nw or C(R Wa ) nw , wherein nw is an integer from 0 to 2 and each R Wa is, independently, H, optionally substituted alkyl, or optionally substituted alkoxy;
  • each V 3 is, independently, O, S, N(R Va ) nv , or C(R Va ) nv , wherein nv is an integer from 0 to 2 and each R Va is, independently, H, halo, optionally substituted amino acid, optionally substituted alkyl, optionally substituted hydroxyalkyl, optionally substituted hydroxyalkenyl, optionally substituted hydroxyalkynyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted heterocyclyl, optionally substituted alkheterocyclyl, optionally substituted alkoxy, optionally substituted alkenyloxy, or optionally substituted alkynyloxy, optionally substituted aminoalkyl (e.g., substituted with an N-protecting group, such as any described herein, e.g., trifluoroacetyl, or sulfoalkyl), optionally substituted aminoalkenyl, optionally substituted aminoalkyn
  • R 12a is H, optionally substituted alkyl, optionally substituted hydroxyalkyl, optionally substituted hydroxyalkenyl, optionally substituted hydroxyalkynyl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, optionally substituted aminoalkynyl, optionally substituted carboxyalkyl (e.g., optionally substituted with hydroxy and/or an O-protecting group), optionally substituted carboxyalkoxy, optionally substituted carboxyaminoalkyl, optionally substituted carbamoylalkyl, or absent;
  • R 12b is H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted hydroxyalkyl, optionally substituted hydroxyalkenyl, optionally substituted hydroxyalkynyl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, optionally substituted aminoalkynyl, optionally substituted alkaryl, optionally substituted heterocyclyl, optionally substituted alkheterocyclyl, optionally substituted amino acid, optionally substituted alkoxycarbonylacyl, optionally substituted alkoxycarbonylalkoxy, optionally substituted alkoxycarbonylalkyl, optionally substituted alkoxycarbonylalkenyl, optionally substituted alkoxycarbonylalkynyl, optionally substituted alkoxycarbonylalkoxy, optionally substituted carboxyalkyl (e.g., optionally substituted with hydroxy and/or an O-protecting group), optionally substitute
  • R 12c is H, halo, optionally substituted alkyl, optionally substituted alkoxy, optionally substituted thioalkoxy, optionally substituted amino, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, or optionally substituted aminoalkynyl.
  • modified uracils include those having Formula (b28)-(b31):
  • each of T 1 and T 2 is, independently, O (oxo), S (thio), or Se (seleno);
  • each R Vb′ and R Vb′′ is, independently, H, halo, optionally substituted amino acid, optionally substituted alkyl, optionally substituted haloalkyl, optionally substituted hydroxyalkyl, optionally substituted hydroxyalkenyl, optionally substituted hydroxyalkynyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkyl (e.g., substituted with an N-protecting group, such as any described herein, e.g., trifluoroacetyl, or sulfoalkyl), optionally substituted aminoalkenyl, optionally substituted aminoalkynyl, optionally substituted acylaminoalkyl (e.g., substituted with an N-protecting group, such as any described herein, e.g., trifluoroacetyl),
  • R 12a is H, optionally substituted alkyl, optionally substituted carboxyaminoalkyl, optionally substituted aminoalkyl (e.g., e.g., substituted with an N-protecting group, such as any described herein, e.g., trifluoroacetyl, or sulfoalkyl), optionally substituted aminoalkenyl, or optionally substituted aminoalkynyl; and
  • R 12b is H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted hydroxyalkyl, optionally substituted hydroxyalkenyl, optionally substituted hydroxyalkynyl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, optionally substituted aminoalkynyl (e.g., e.g., substituted with an N-protecting group, such as any described herein, e.g., trifluoroacetyl, or sulfoalkyl),
  • optionally substituted alkoxycarbonylacyl optionally substituted alkoxycarbonylalkoxy, optionally substituted alkoxycarbonylalkyl, optionally substituted alkoxycarbonylalkenyl, optionally substituted alkoxycarbonylalkynyl, optionally substituted alkoxycarbonylalkoxy, optionally substituted carboxyalkoxy, optionally substituted carboxyalkyl, or optionally substituted carbamoylalkyl.
  • T 1 is O (oxo), and T 2 is S (thio) or Se (seleno). In other embodiments, T 1 is S (thio), and T 2 is 0 (oxo) or Se (seleno).
  • R Vb′ is H, optionally substituted alkyl, or optionally substituted alkoxy.
  • each R 12a and R 12b is, independently, H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, or optionally substituted hydroxyalkyl.
  • R 12a is H.
  • both R 12a and R 12b are H.
  • each R Vb′ of R 12b is, independently, optionally substituted aminoalkyl (e.g., substituted with an N-protecting group, such as any described herein, e.g., trifluoroacetyl, or sulfoalkyl), optionally substituted aminoalkenyl, optionally substituted aminoalkynyl, or optionally substituted acylaminoalkyl (e.g., substituted with an N-protecting group, such as any described herein, e.g., trifluoroacetyl).
  • an N-protecting group such as any described herein, e.g., trifluoroacetyl
  • the amino and/or alkyl of the optionally substituted aminoalkyl is substituted with one or more of optionally substituted alkyl, optionally substituted alkenyl, optionally substituted sulfoalkyl, optionally substituted carboxy (e.g., substituted with an O-protecting group), optionally substituted hydroxy (e.g., substituted with an O-protecting group), optionally substituted carboxyalkyl (e.g., substituted with an O-protecting group), optionally substituted alkoxycarbonylalkyl (e.g., substituted with an O-protecting group), or N-protecting group.
  • optionally substituted alkyl optionally substituted alkenyl, optionally substituted sulfoalkyl
  • optionally substituted carboxy e.g., substituted with an O-protecting group
  • optionally substituted hydroxy e.g., substituted with an O-protecting group
  • optionally substituted carboxyalkyl e.g.,
  • optionally substituted aminoalkyl is substituted with an optionally substituted sulfoalkyl or optionally substituted alkenyl.
  • R 12a and R Vb′′ are both H.
  • T 1 is O (oxo)
  • T 2 is S (thio) or Se (seleno).
  • R Vb′ is optionally substituted alkoxycarbonylalkyl or optionally substituted carbamoylalkyl.
  • the optional substituent for R 12a , R 12b , R 12c , or R Va is a polyethylene glycol group (e.g., —(CH 2 ) s2 (OCH 2 CH 2 ) s1 (CH 2 ) s3 OR′, wherein s1 is an integer from 1 to 10 (e.g., from 1 to 6 or from 1 to 4), each of s2 and s3, independently, is an integer from 0 to 10 (e.g., from 0 to 4, from 0 to 6, from 1 to 4, from 1 to 6, or from 1 to 10), and R′ is H or C 1-20 alkyl); or an amino-polyethylene glycol group (e.g., —NR N1 (CH 2 ) s2 (CH 2 CH 2 O) s1 (CH 2 ) s3 NR N1 , wherein s1 is an integer from 1 to 10 (e.g., from 1 to 6 or from 1 to 4), each of s2 and s3, independently
  • B is a modified cytosine.
  • exemplary modified cytosines include compounds of Formula (b10)-(b14):
  • each of T 3′ and T 3′′ is, independently, H, optionally substituted alkyl, optionally substituted alkoxy, or optionally substituted thioalkoxy, or the combination of T 3′ and T 3′′ join together (e.g., as in T 3 ) to form O (oxo), S (thio), or Se (seleno);
  • each V 4 is, independently, O, S, N(R Vc ) nv , or C(R Vc ) nv , wherein nv is an integer from 0 to 2 and each R Vc is, independently, H, halo, optionally substituted amino acid, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted heterocyclyl, optionally substituted alkheterocyclyl, or optionally substituted alkynyloxy (e.g., optionally substituted with any substituent described herein, such as those selected from (1)-(21) for alkyl), wherein the combination of R 13b and R Vc can be taken together to form optionally substituted heterocyclyl;
  • each V 5 is, independently, N(R Vd ) nv , or C(R Vd ) nv , wherein nv is an integer from 0 to 2 and each R Vd is, independently, H, halo, optionally substituted amino acid, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted heterocyclyl, optionally substituted alkheterocyclyl, or optionally substituted alkynyloxy (e.g., optionally substituted with any substituent described herein, such as those selected from (1)-(21) for alkyl) (e.g., V 5 is —CH or N);
  • each of R 13a and R 13b is, independently, H, optionally substituted acyl, optionally substituted acyloxyalkyl, optionally substituted alkyl, or optionally substituted alkoxy, wherein the combination of R 13b and R 14 can be taken together to form optionally substituted heterocyclyl;
  • each R 14 is, independently, H, halo, hydroxy, thiol, optionally substituted acyl, optionally substituted amino acid, optionally substituted alkyl, optionally substituted haloalkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted hydroxyalkyl (e.g., substituted with an O-protecting group), optionally substituted hydroxyalkenyl, optionally substituted hydroxyalkynyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkoxy, optionally substituted alkoxyalkoxy, optionally substituted acyloxyalkyl, optionally substituted amino (e.g., —NHR, wherein R is H, alkyl, aryl, or phosphoryl), azido, optionally substituted aryl, optionally substituted heterocyclyl, optionally substituted alkheterocyclyl, optionally
  • each of R 15 and R 16 is, independently, H, optionally substituted alkyl, optionally substituted alkenyl, or optionally substituted alkynyl.
  • modified cytosines include those having Formula (b32)-(b35):
  • each of T 1 and T 3 is, independently, O (oxo), S (thio), or Se (seleno);
  • each of R 13a and R 13b is, independently, H, optionally substituted acyl, optionally substituted acyloxyalkyl, optionally substituted alkyl, or optionally substituted alkoxy, wherein the combination of R 13b and R 14 can be taken together to form optionally substituted heterocyclyl;
  • each R 14 is, independently, H, halo, hydroxy, thiol, optionally substituted acyl, optionally substituted amino acid, optionally substituted alkyl, optionally substituted haloalkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted hydroxyalkyl (e.g., substituted with an O-protecting group), optionally substituted hydroxyalkenyl, optionally substituted hydroxyalkynyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkoxy, optionally substituted alkoxyalkoxy, optionally substituted acyloxyalkyl, optionally substituted amino (e.g., —NHR, wherein R is H, alkyl, aryl, or phosphoryl), azido, optionally substituted aryl, optionally substituted heterocyclyl, optionally substituted alkheterocyclyl, optionally
  • each of R 15 and R 16 is, independently, H, optionally substituted alkyl, optionally substituted alkenyl, or optionally substituted alkynyl (e.g., R 15 is H, and R 16 is H or optionally substituted alkyl).
  • R 15 is H, and R 16 is H or optionally substituted alkyl.
  • R 14 is H, acyl, or hydroxyalkyl.
  • R 14 is halo.
  • both R 14 and R 15 are H.
  • both R 15 and R 16 are H.
  • each of R 14 and R 15 and R 16 is H.
  • each of R 13a and R 13b is independently, H or optionally substituted alkyl.
  • modified cytosines include compounds of Formula (b36):
  • each R 13b is, independently, H, optionally substituted acyl, optionally substituted acyloxyalkyl, optionally substituted alkyl, or optionally substituted alkoxy, wherein the combination of R 13b and R 14b can be taken together to form optionally substituted heterocyclyl;
  • each R 14a and R 14b is, independently, H, halo, hydroxy, thiol, optionally substituted acyl, optionally substituted amino acid, optionally substituted alkyl, optionally substituted haloalkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted hydroxyalkyl (e.g., substituted with an O-protecting group), optionally substituted hydroxyalkenyl, optionally substituted alkoxy, optionally substituted alkenyloxy, optionally substituted alkynyloxy, optionally substituted aminoalkoxy, optionally substituted alkoxyalkoxy, optionally substituted acyloxyalkyl, optionally substituted amino (e.g., —NHR, wherein R is H, alkyl, aryl, phosphoryl, optionally substituted aminoalkyl, or optionally substituted carboxyaminoalkyl), azido, optionally substituted aryl, optionally substituted heterocyclyl,
  • each of R 15 is, independently, H, optionally substituted alkyl, optionally substituted alkenyl, or optionally substituted alkynyl.
  • R 14b is an optionally substituted amino acid (e.g., optionally substituted lysine). In some embodiments, R 14a is H.
  • B is a modified guanine.
  • exemplary modified guanines include compounds of Formula (b15)-(b17):
  • each of T 4′ , T 4′′ , T 5′ , T 5′′ , T 6′ , and T 6′′ is independently, H, optionally substituted alkyl, or optionally substituted alkoxy, and wherein the combination of T 4′ and T 4′′ (e.g., as in T 4 ) or the combination of T 5′ and T 5′′ (e.g., as in T 5 ) or the combination of T 6′ and T 6′′ (e.g., as in T 6 ) join together form O (oxo), S (thio), or Se (seleno);
  • each of V 5 and V 6 is, independently, O, S, N(R Vd ) nv , or C(R Vd ) nv , wherein nv is an integer from 0 to 2 and each R Vd is, independently, H, halo, thiol, optionally substituted amino acid, cyano, amidine, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, optionally substituted aminoalkynyl, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted alkoxy, optionally substituted alkenyloxy, or optionally substituted alkynyloxy (e.g., optionally substituted with any substituent described herein, such as those selected from (1)-(21) for alkyl), optionally substituted thioalkoxy, or optionally substituted amino; and
  • each of R 17 , R 18 , R 19a , R 19b , R 21 , R 22 , R 23 , and R 24 is, independently, H, halo, thiol, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted thioalkoxy, optionally substituted amino, or optionally substituted amino acid.
  • Exemplary modified guanosines include compounds of Formula (b37)-(b40):
  • each of T 4′ is, independently, H, optionally substituted alkyl, or optionally substituted alkoxy, and each T 4 is, independently, O (oxo), S (thio), or Se (seleno);
  • each of R 18 , R 19a , R 19b , and R 21 is, independently, H, halo, thiol, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted thioalkoxy, optionally substituted amino, or optionally substituted amino acid.
  • R 18 is H or optionally substituted alkyl.
  • T 4 is oxo.
  • each of R 19a and R 19b is, independently, H or optionally substituted alkyl.
  • B is a modified adenine.
  • exemplary modified adenines include compounds of Formula (b18)-(b20):
  • each R 25 is, independently, H, halo, thiol, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted thioalkoxy, or optionally substituted amino;
  • each of R 26a and R 26b is, independently, H, optionally substituted acyl, optionally substituted amino acid, optionally substituted carbamoylalkyl, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted hydroxyalkyl, optionally substituted hydroxyalkenyl, optionally substituted hydroxyalkynyl, optionally substituted alkoxy, or polyethylene glycol group (e.g., —(CH 2 ) s2 (OCH 2 CH 2 ) s1 (CH 2 ) s3 OR′, wherein s1 is an integer from 1 to 10 (e.g., from 1 to 6 or from 1 to 4), each of s2 and s3, independently, is an integer from 0 to 10 (e.g., from 0 to 4, from 0 to 6, from 1 to 4, from 1 to 6, or from 1 to 10), and R′ is H or C 1-20 alkyl); or an amino-polyethylene glycol
  • each R 27 is, independently, H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted alkoxy, optionally substituted thioalkoxy or optionally substituted amino;
  • each R 28 is, independently, H, optionally substituted alkyl, optionally substituted alkenyl, or optionally substituted alkynyl;
  • each R 29 is, independently, H, optionally substituted acyl, optionally substituted amino acid, optionally substituted carbamoylalkyl, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted hydroxyalkyl, optionally substituted hydroxyalkenyl, optionally substituted alkoxy, or optionally substituted amino.
  • Exemplary modified adenines include compounds of Formula (b41)-(b43):
  • each R 25 is, independently, H, halo, thiol, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted thioalkoxy, or optionally substituted amino;
  • each of R 26a and R 26b is, independently, H, optionally substituted acyl, optionally substituted amino acid, optionally substituted carbamoylalkyl, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted hydroxyalkyl, optionally substituted hydroxyalkenyl, optionally substituted hydroxyalkynyl, optionally substituted alkoxy, or polyethylene glycol group (e.g., —(CH 2 ) s2 (OCH 2 CH 2 ) s1 (CH 2 ) s3 OR′, wherein s1 is an integer from 1 to 10 (e.g., from 1 to 6 or from 1 to 4), each of s2 and s3, independently, is an integer from 0 to 10 (e.g., from 0 to 4, from 0 to 6, from 1 to 4, from 1 to 6, or from 1 to 10), and R′ is H or C 1-20 alkyl); or an amino-polyethylene glycol
  • each R 27 is, independently, H, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted alkoxy, optionally substituted thioalkoxy, or optionally substituted amino.
  • R 26a is H, and R 26b is optionally substituted alkyl. In some embodiments, each of R 26a and R 26b is, independently, optionally substituted alkyl. In particular embodiments, R 27 is optionally substituted alkyl, optionally substituted alkoxy, or optionally substituted thioalkoxy. In other embodiments, R 25 is optionally substituted alkyl, optionally substituted alkoxy, or optionally substituted thioalkoxy.
  • the optional substituent for R 26a , R 26b , or R 29 is a polyethylene glycol group (e.g., —(CH 2 ) s2 (OCH 2 CH 2 ) s1 (CH 2 ) s3 OR′, wherein s1 is an integer from 1 to 10 (e.g., from 1 to 6 or from 1 to 4), each of s2 and s3, independently, is an integer from 0 to 10 (e.g., from 0 to 4, from 0 to 6, from 1 to 4, from 1 to 6, or from 1 to 10), and R′ is H or C 1-20 alkyl); or an amino-polyethylene glycol group (e.g., —NR N1 (CH 2 ) s2 (CH 2 CH 2 O) s1 (CH 2 ) s3 NR N1 , wherein s1 is an integer from 1 to 10 (e.g., from 1 to 6 or from 1 to 4), each of s2 and s3, independently, is an integer from
  • B may have Formula (b21):
  • X 12 is, independently, O, S, optionally substituted alkylene (e.g., methylene), or optionally substituted heteroalkylene
  • xa is an integer from 0 to 3
  • R 12a and T 2 are as described herein.
  • B may have Formula (b22):
  • R 10′ is, independently, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted aryl, optionally substituted heterocyclyl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, optionally substituted aminoalkynyl, optionally substituted alkoxy, optionally substituted alkoxycarbonylalkyl, optionally substituted alkoxycarbonylalkenyl, optionally substituted alkoxycarbonylalkynyl, optionally substituted alkoxycarbonylalkoxy, optionally substituted carboxyalkoxy, optionally substituted carboxyalkyl, or optionally substituted carbamoylalkyl, and R 11 , R 12a , T 1 , and T 2 are as described herein.
  • B may have Formula (b23):
  • R 10 is optionally substituted heterocyclyl (e.g., optionally substituted furyl, optionally substitued thienyl, or optionally substitued pyrrolyl), optionally substituted aryl (e.g., optionally substituted phenyl or optionally substituted naphthyl), or any substituent described herein (e.g., for R 10 ); and wherein R 11 (e.g., H or any substituent described herein), R 12a (e.g., H or any substituent described herein), T 1 (e.g., oxo or any substituent described herein), and T 2 (e.g., oxo or any substituent described herein) are as described herein.
  • B may have Formula (b24):
  • R 14′ is, independently, optionally substituted alkyl, optionally substituted alkenyl, optionally substituted alkynyl, optionally substituted aryl, optionally substituted heterocyclyl, optionally substituted alkaryl, optionally substituted alkheterocyclyl, optionally substituted aminoalkyl, optionally substituted aminoalkenyl, optionally substituted aminoalkynyl, optionally substituted alkoxy, optionally substituted alkoxycarbonylalkenyl, optionally substituted alkoxycarbonylalkynyl, optionally substituted alkoxycarbonylalkyl, optionally substituted alkoxycarbonylalkoxy, optionally substituted carboxyalkoxy, optionally substituted carboxyalkyl, or optionally substituted carbamoylalkyl, and R 13a , R 13b , R 15 , and T 3 are as described herein.
  • B may have Formula (b25):
  • R 14′ is optionally substituted heterocyclyl (e.g., optionally substituted furyl, optionally substitued thienyl, or optionally substitued pyrrolyl), optionally substituted aryl (e.g., optionally substituted phenyl or optionally substituted naphthyl), or any substituent described herein (e.g., for R 14 or R 14′ ); and wherein R 13a (e.g., H or any substituent described herein), R 13b (e.g., H or any substituent described herein), R 15 (e.g., H or any substituent described herein), and T 3 (e.g., oxo or any substituent described herein) are as described herein.
  • R 13a e.g., H or any substituent described herein
  • R 13b e.g., H or any substituent described herein
  • R 15 e.g., H or any substituent described herein
  • T 3 e.g., ox
  • B is a nucleobase selected from the group consisting of cytosine, guanine, adenine, and uracil. In some embodiments, B may be:
  • the modified nucleobase is a modified uracil.
  • exemplary nucleobases and nucleosides having a modified uracil include pseudouridine ( ⁇ ), pyridin-4-one ribonucleoside, 5-aza-uridine, 6-aza-uridine, 2-thio-5-aza-uridine, 2-thio-uridine (s 2 U), 4-thio-uridine (s 4 U), 4-thio-pseudouridine, 2-thio-pseudouridine, 5-hydroxy-uridine (ho 5 U), 5-aminoallyl-uridine, 5-halo-uridine (e.g., 5-iodo-uridine or 5-bromo-uridine), 3-methyl-uridine (m 3 U), 5-methoxy-uridine (mo 5 U), uridine 5-oxyacetic acid (cmo 5 U), uridine 5-oxyacetic acid methyl ester (mcmo 5 U), 5-carboxymethyl-uridine (cm 5 U), 1-car
  • the modified nucleobase is a modified cytosine.
  • exemplary nucleobases and nucleosides having a modified cytosine include 5-aza-cytidine, 6-aza-cytidine, pseudoisocytidine, 3-methyl-cytidine (m 3 C), N4-acetyl-cytidine (ac 4 C), 5-formyl-cytidine (f 5 C), N4-methyl-cytidine (m 4 C), 5-methyl-cytidine (m 5 C), 5-halo-cytidine (e.g., 5-iodo-cytidine), 5-hydroxymethyl-cytidine (hm 5 C), 1-methyl-pseudoisocytidine, pyrrolo-cytidine, pyrrolo-pseudoisocytidine, 2-thio-cytidine (s 2 C), 2-thio-5-methyl-cytidine, 4-thio-pseudoisocy
  • the modified nucleobase is a modified adenine.
  • exemplary nucleobases and nucleosides having a modified adenine include 2-amino-purine, 2,6-diaminopurine, 2-amino-6-halo-purine (e.g., 2-amino-6-chloro-purine), 6-halo-purine (e.g., 6-chloro-purine), 2-amino-6-methyl-purine, 8-azido-adenosine, 7-deaza-adenine, 7-deaza-8-aza-adenine, 7-deaza-2-amino-purine, 7-deaza-8-aza-2-amino-purine, 7-deaza-2,6-diaminopurine, 7-deaza-8-aza-2,6-diaminopurine, 1-methyl-adenosine (m 1 A), 2-methyl-adenine (m 2 A), N6-methyl-adenosine (m 1
  • the modified nucleobase is a modified guanine.
  • exemplary nucleobases and nucleosides having a modified guanine include inosine (I), 1-methyl-inosine (m 1 I), wyosine (imG), methylwyosine (mimG), 4-demethyl-wyosine (imG-14), isowyosine (imG2), wybutosine (yW), peroxywybutosine (o 2 yW), hydroxywybutosine (OHyW), undermodified hydroxywybutosine (OHyW*), 7-deaza-guanosine, queuosine (Q), epoxyqueuosine (oQ), galactosyl-queuosine (galQ), mannosyl-queuosine (manQ), 7-cyano-7-deaza-guanosine (preQ 0 ), 7-aminomethyl-7-deaza-guanosine (
  • the nucleobase of the nucleotide can be independently selected from a purine, a pyrimidine, a purine or pyrimidine analog.
  • the nucleobase can each be independently selected from adenine, cytosine, guanine, uracil, or hypoxanthine.
  • the nucleobase can also include, for example, naturally-occurring and synthetic derivatives of a base, including pyrazolo[3,4-d]pyrimidines, 5-methylcytosine (5-me-C), 5-hydroxymethyl cytosine, xanthine, hypoxanthine, 2-aminoadenine, 6-methyl and other alkyl derivatives of adenine and guanine, 2-propyl and other alkyl derivatives of adenine and guanine, 2-thiouracil, 2-thiothymine and 2-thiocytosine, 5-propynyl uracil and cytosine, 6-azo uracil, cytosine and thymine, 5-uracil (pseudouracil), 4-thiouracil, 8-halo (e.g., 8-bromo), 8-amino, 8-thiol, 8-thioalkyl, 8-hydroxyl and other 8-substituted adenines and
  • each letter refers to the representative base and/or derivatives thereof, e.g., A includes adenine or adenine analogs, e.g., 7-deaza adenine).
  • the modified nucleotides which may be incorporated into a polynucleotide, primary construct, or mmRNA molecule, can be modified on the internucleoside linkage (e.g., phosphate backbone).
  • internucleoside linkage e.g., phosphate backbone
  • the phrases “phosphate” and “phosphodiester” are used interchangeably.
  • Backbone phosphate groups can be modified by replacing one or more of the oxygen atoms with a different substituent.
  • the modified nucleosides and nucleotides can include the wholesale replacement of an unmodified phosphate moiety with another internucleoside linkage as described herein.
  • modified phosphate groups include, but are not limited to, phosphorothioate, phosphoroselenates, boranophosphates, boranophosphate esters, hydrogen phosphonates, phosphoramidates, phosphorodiamidates, alkyl or aryl phosphonates, and phosphotriesters.
  • Phosphorodithioates have both non-linking oxygens replaced by sulfur.
  • the phosphate linker can also be modified by the replacement of a linking oxygen with nitrogen (bridged phosphoramidates), sulfur (bridged phosphorothioates), and carbon (bridged methylene-phosphonates).
  • the ⁇ -thio substituted phosphate moiety is provided to confer stability to RNA and DNA polymers through the unnatural phosphorothioate backbone linkages.
  • Phosphorothioate DNA and RNA have increased nuclease resistance and subsequently a longer half-life in a cellular environment.
  • Phosphorothioate linked polynucleotides, primary constructs, or mmRNA molecules are expected to also reduce the innate immune response through weaker binding/activation of cellular innate immune molecules.
  • a modified nucleoside includes an alpha-thio-nucleoside (e.g., 5′-O-(1-thiophosphate)-adenosine, 5′-O-(1-thiophosphate)-cytidine ( ⁇ -thio-cytidine), 5′-O-(1-thiophosphate)-guanosine, 5′-O-(1-thiophosphate)-uridine, or 5′-O-(1-thiophosphate)-pseudouridine).
  • alpha-thio-nucleoside e.g., 5′-O-(1-thiophosphate)-adenosine, 5′-O-(1-thiophosphate)-cytidine ( ⁇ -thio-cytidine), 5′-O-(1-thiophosphate)-guanosine, 5′-O-(1-thiophosphate)-uridine, or 5′-O-(1-thiophosphate)-p
  • internucleoside linkages that may be employed according to the present invention, including internucleoside linkages which do not contain a phosphorous atom, are described herein below.
  • the polynucleotides, primary constructs, and mmRNA of the invention can include a combination of modifications to the sugar, the nucleobase, and/or the internucleoside linkage. These combinations can include any one or more modifications described herein.
  • any of the nucleotides described herein in Formulas (Ia), (Ia-1)-(Ia-3), (Ib)-(If), (IIa)-(IIp), (IIb-1), (IIb-2), (IIc-1)-(IIc-2), (IIn-1), (IIn-2), (IVa)-(IVl), and (IXa)-(IXr) can be combined with any of the nucleobases described herein (e.g., in Formulas (b1)-(b43) or any other described herein).
  • polypeptides, primary constructs, and mmRNA molecules for use in accordance with the invention may be prepared according to any useful technique, as described herein.
  • the modified nucleosides and nucleotides used in the synthesis of polynucleotides, primary constructs, and mmRNA molecules disclosed herein can be prepared from readily available starting materials using the following general methods and procedures. Where typical or preferred process conditions (e.g., reaction temperatures, times, mole ratios of reactants, solvents, pressures, etc.) are provided, a skilled artisan would be able to optimize and develop additional process conditions. Optimum reaction conditions may vary with the particular reactants or solvent used, but such conditions can be determined by one skilled in the art by routine optimization procedures.
  • spectroscopic means such as nuclear magnetic resonance spectroscopy (e.g., 1 H or 13 C) infrared spectroscopy, spectrophotometry (e.g., UV-visible), or mass spectrometry, or by chromatography such as high performance liquid chromatography (HPLC) or thin layer chromatography.
  • HPLC high performance liquid chromatography
  • Preparation of polypeptides, primary constructs, and mmRNA molecules of the present invention can involve the protection and deprotection of various chemical groups.
  • the need for protection and deprotection, and the selection of appropriate protecting groups can be readily determined by one skilled in the art.
  • the chemistry of protecting groups can be found, for example, in Greene, et al., Protective Groups in Organic Synthesis, 2d. Ed., Wiley & Sons, 1991, which is incorporated herein by reference in its entirety.
  • Suitable solvents can be substantially nonreactive with the starting materials (reactants), the intermediates, or products at the temperatures at which the reactions are carried out, i.e., temperatures which can range from the solvent's freezing temperature to the solvent's boiling temperature.
  • a given reaction can be carried out in one solvent or a mixture of more than one solvent.
  • suitable solvents for a particular reaction step can be selected.
  • An example method includes fractional recrystallization using a “chiral resolving acid” which is an optically active, salt-forming organic acid.
  • Suitable resolving agents for fractional recrystallization methods are, for example, optically active acids, such as the D and L forms of tartaric acid, diacetyltartaric acid, dibenzoyltartaric acid, mandelic acid, malic acid, lactic acid or the various optically active camphorsulfonic acids.
  • Resolution of racemic mixtures can also be carried out by elution on a column packed with an optically active resolving agent (e.g., dinitrobenzoylphenylglycine).
  • an optically active resolving agent e.g., dinitrobenzoylphenylglycine
  • Suitable elution solvent composition can be determined by one skilled in the art.
  • Modified nucleosides and nucleotides can be prepared according to the synthetic methods described in Ogata et al., J. Org. Chem. 74:2585-2588 (2009); Purmal et al., Nucl. Acids Res. 22(1): 72-78, (1994); Fukuhara et al., Biochemistry, 1(4): 563-568 (1962); and Xu et al., Tetrahedron, 48(9): 1729-1740 (1992), each of which are incorporated by reference in their entirety.
  • polypeptides, primary constructs, and mmRNA of the invention may or may not be uniformly modified along the entire length of the molecule.
  • nucleotide e.g., purine or pyrimidine, or any one or more or all of A, G, U, C
  • a polynucleotide of the invention or in a given predetermined sequence region thereof (e.g. one or more of the sequence regions represented in FIG. 1 ).
  • nucleotides X in a polynucleotide of the invention are modified, wherein X may any one of nucleotides A, G, U, C, or any one of the combinations A+G, A+U, A+C, G+U, G+C, U+C, A+G+U, A+G+C, G+U+C or A+G+C.
  • nucleotide modifications may exist at various positions in the polynucleotide, primary construct, or mmRNA.
  • nucleotide analogs or other modification(s) may be located at any position(s) of a polynucleotide, primary construct, or mmRNA such that the function of the polynucleotide, primary construct, or mmRNA is not substantially decreased.
  • a modification may also be a 5′ or 3′ terminal modification.
  • the polynucleotide, primary construct, or mmRNA may contain from about 1% to about 100% modified nucleotides (either in relation to overall nucleotide content, or in relation to one or more types of nucleotide, i.e.
  • any one or more of A, G, U or C) or any intervening percentage e.g., from 1% to 20%, from 1% to 25%, from 1% to 50%, from 1% to 60%, from 1% to 70%, from 1% to 80%, from 1% to 90%, from 1% to 95%, from 10% to 20%, from 10% to 25%, from 10% to 50%, from 10% to 60%, from 10% to 70%, from 10% to 80%, from 10% to 90%, from 10% to 95%, from 10% to 100%, from 20% to 25%, from 20% to 50%, from 20% to 60%, from 20% to 70%, from 20% to 80%, from 20% to 90%, from 20% to 95%, from 20% to 100%, from 50% to 60%, from 50% to 70%, from 50% to 80%, from 50% to 90%, from 50% to 95%, from 50% to 100%, from 70% to 80%, from 70% to 90%, from 70% to 95%, from 70% to 100%, from 80% to 90%, from 80% to 95%, from 90% to 100%, and from 95% to 100%).
  • any intervening percentage e.g.,
  • the polynucleotide, primary construct, or mmRNA includes a modified pyrimidine (e.g., a modified uracil/uridine/U or modified cytosine/cytidine/C).
  • the uracil or uridine (generally: U) in the polynucleotide, primary construct, or mmRNA molecule may be replaced with from about 1% to about 100% of a modified uracil or modified uridine (e.g., from 1% to 20%, from 1% to 25%, from 1% to 50%, from 1% to 60%, from 1% to 70%, from 1% to 80%, from 1% to 90%, from 1% to 95%, from 10% to 20%, from 10% to 25%, from 10% to 50%, from 10% to 60%, from 10% to 70%, from 10% to 80%, from 10% to 90%, from 10% to 95%, from 10% to 100%, from 20% to 25%, from 20% to 50%, from 20% to 60%, from 20% to 70%, from 20% to 80%, from 20% to 80%, from 20% to
  • the modified uracil or uridine can be replaced by a compound having a single unique structure or by a plurality of compounds having different structures (e.g., 2, 3, 4 or more unique structures, as described herein).
  • the cytosine or cytidine (generally: C) in the polynucleotide, primary construct, or mmRNA molecule may be replaced with from about 1% to about 100% of a modified cytosine or modified cytidine (e.g., from 1% to 20%, from 1% to 25%, from 1% to 50%, from 1% to 60%, from 1% to 70%, from 1% to 80%, from 1% to 90%, from 1% to 95%, from 10% to 20%, from 10% to 25%, from 10% to 50%, from 10% to 60%, from 10% to 70%, from 10% to 80%, from 10% to 90%, from 10% to 95%, from 10% to 100%, from 20% to 25%, from 20% to 50%, from 20% to 60%, from 20% to 70%, from 20% to 80%, from 20% to 90%, from from 10%
  • the present disclosure provides methods of synthesizing a polynucleotide, primary construct, or mmRNA (e.g., the first region, first flanking region, or second flanking region) including n number of linked nucleosides having Formula (Ia-1):
  • Y 9 is H, hydroxy, phosphoryl, pyrophosphate, sulfate, amino, thiol, optionally substituted amino acid, or a peptide (e.g., including from 2 to 12 amino acids); and each P 1 , P 2 , and P 3 is, independently, a suitable protecting group; and
  • steps a) and b) are repeated from 1 to about 10,000 times.
  • the methods further comprise a nucleotide (e.g., mmRNA molecule) selected from the group consisting of A, C, G and U adenosine, cytosine, guanosine, and uracil.
  • the nucleobase may be a pyrimidine or derivative thereof.
  • the polynucleotide, primary construct, or mmRNA is translatable.
  • polynucleotides, primary constructs, and mmRNA are optional, and are beneficial in some embodiments.
  • a 5′ untranslated region (UTR) and/or a 3′UTR are provided, wherein either or both may independently contain one or more different nucleotide modifications.
  • nucleotide modifications may also be present in the translatable region.
  • polynucleotides, primary constructs, and mmRNA containing a Kozak sequence are also be present in the translatable region.
  • Scheme 1 provides a general method for phosphorylation of nucleosides, including modified nucleosides.
  • Scheme 2 provides the use of multiple protecting and deprotecting steps to promote phosphorylation at the 5′ position of the sugar, rather than the 2′ and 3′ hydroxyl groups.
  • Modified nucleotides can be synthesized in any useful manner.
  • Schemes 3, 4, and 7 provide exemplary methods for synthesizing modified nucleotides having a modified purine nucleobase; and
  • Schemes 5 and 6 provide exemplary methods for synthesizing modified nucleotides having a modified pseudouridine or pseudoisocytidine, respectively.
  • Schemes 8 and 9 provide exemplary syntheses of modified nucleotides.
  • Scheme 10 provides a non-limiting biocatalytic method for producing nucleotides.
  • Scheme 11 provides an exemplary synthesis of a modified uracil, where the N1 position is modified with R 12b , as provided elsewhere, and the 5′-position of ribose is phosphorylated.
  • T 1 , T 2 , R 12a , R 12b , and r are as provided herein.
  • This synthesis, as well as optimized versions thereof, can be used to modify other pyrimidine nucleobases and purine nucleobases (see e.g., Formulas (b1)-(b43)) and/or to install one or more phosphate groups (e.g., at the 5′ position of the sugar).
  • This alkylating reaction can also be used to include one or more optionally substituted alkyl group at any reactive group (e.g., amino group) in any nucleobase described herein (e.g., the amino groups in the Watson-Crick base-pairing face for cytosine, uracil, adenine, and guanine)
  • any reactive group e.g., amino group
  • nucleobase described herein e.g., the amino groups in the Watson-Crick base-pairing face for cytosine, uracil, adenine, and guanine
  • modified nucleotides and modified nucleotide combinations are provided below in Table 9. These combinations of modified nucleotides can be used to form the polypeptides, primary constructs, or mmRNA of the invention. Unless otherwise noted, the modified nucleotides may be completely substituted for the natural nucleotides of the modified nucleic acids or mmRNA of the invention. As a non-limiting example, the natural nucleotide uridine may be substituted with a modified nucleoside described herein.
  • the natural nucleotide uridine may be partially substituted (e.g., about 0.1%, 1%, 5%, 10%, 15%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95% or 99.9%) with at least one of the modified nucleoside disclosed herein.
  • modified nucleotide combinations are provided below in Table 10. These combinations of modified nucleotides can be used to form the polypeptides, primary constructs, or mmRNA of the invention.
  • At least 25% of the cytosines are replaced by a compound of Formula (b10)-(b14) (e.g., at least about 30%, at least about 35%, at least about 40%, at least about 45%, at least about 50%, at least about 55%, at least about 60%, at least about 65%, at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, or about 100%).
  • a compound of Formula (b10)-(b14) e.g., at least about 30%, at least about 35%, at least about 40%, at least about 45%, at least about 50%, at least about 55%, at least about 60%, at least about 65%, at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, or about 100%).
  • At least 25% of the uracils are replaced by a compound of Formula (b1)-(b9) (e.g., at least about 30%, at least about 35%, at least about 40%, at least about 45%, at least about 50%, at least about 55%, at least about 60%, at least about 65%, at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, or about 100%).
  • a compound of Formula (b1)-(b9) e.g., at least about 30%, at least about 35%, at least about 40%, at least about 45%, at least about 50%, at least about 55%, at least about 60%, at least about 65%, at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, or about 100%).
  • At least 25% of the cytosines are replaced by a compound of Formula (b10)-(b14), and at least 25% of the uracils are replaced by a compound of Formula (b1)-(b9) (e.g., at least about 30%, at least about 35%, at least about 40%, at least about 45%, at least about 50%, at least about 55%, at least about 60%, at least about 65%, at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, or about 100%).
  • the present invention provides polynucleotides, primary constructs and mmRNA compositions and complexes in combination with one or more pharmaceutically acceptable excipients.
  • Pharmaceutical compositions may optionally comprise one or more additional active substances, e.g. therapeutically and/or prophylactically active substances.
  • additional active substances e.g. therapeutically and/or prophylactically active substances.
  • General considerations in the formulation and/or manufacture of pharmaceutical agents may be found, for example, in Remington: The Science and Practice of Pharmacy 21 st ed., Lippincott Williams & Wilkins, 2005 (incorporated herein by reference).
  • compositions are administered to humans, human patients or subjects.
  • active ingredient generally refers to polynucleotides, primary constructs and mmRNA to be delivered as described herein.
  • compositions are principally directed to pharmaceutical compositions which are suitable for administration to humans, it will be understood by the skilled artisan that such compositions are generally suitable for administration to any other animal, e.g., to non-human animals, e.g. non-human mammals. Modification of pharmaceutical compositions suitable for administration to humans in order to render the compositions suitable for administration to various animals is well understood, and the ordinarily skilled veterinary pharmacologist can design and/or perform such modification with merely ordinary, if any, experimentation.
  • Subjects to which administration of the pharmaceutical compositions is contemplated include, but are not limited to, humans and/or other primates; mammals, including commercially relevant mammals such as cattle, pigs, horses, sheep, cats, dogs, mice, and/or rats; and/or birds, including commercially relevant birds such as poultry, chickens, ducks, geese, and/or turkeys.
  • Formulations of the pharmaceutical compositions described herein may be prepared by any method known or hereafter developed in the art of pharmacology. In general, such preparatory methods include the step of bringing the active ingredient into association with an excipient and/or one or more other accessory ingredients, and then, if necessary and/or desirable, dividing, shaping and/or packaging the product into a desired single- or multi-dose unit.
  • a pharmaceutical composition in accordance with the invention may be prepared, packaged, and/or sold in bulk, as a single unit dose, and/or as a plurality of single unit doses.
  • a “unit dose” is discrete amount of the pharmaceutical composition comprising a predetermined amount of the active ingredient.
  • the amount of the active ingredient is generally equal to the dosage of the active ingredient which would be administered to a subject and/or a convenient fraction of such a dosage such as, for example, one-half or one-third of such a dosage.
  • Relative amounts of the active ingredient, the pharmaceutically acceptable excipient, and/or any additional ingredients in a pharmaceutical composition in accordance with the invention will vary, depending upon the identity, size, and/or condition of the subject treated and further depending upon the route by which the composition is to be administered.
  • the composition may comprise between 0.1% and 100%, e.g., between 0.5 and 50%, between 1-30%, between 5-80%, at least 80% (w/w) active ingredient.
  • the polynucleotide, primary construct, and mmRNA of the invention can be formulated using one or more excipients to: (1) increase stability; (2) increase cell transfection; (3) permit the sustained or delayed release (e.g., from a depot formulation of the polynucleotide, primary construct, or mmRNA); (4) alter the biodistribution (e.g., target the polynucleotide, primary construct, or mmRNA to specific tissues or cell types); (5) increase the translation of encoded protein in vivo; and/or (6) alter the release profile of encoded protein in vivo.
  • excipients to: (1) increase stability; (2) increase cell transfection; (3) permit the sustained or delayed release (e.g., from a depot formulation of the polynucleotide, primary construct, or mmRNA); (4) alter the biodistribution (e.g., target the polynucleotide, primary construct, or mmRNA to specific tissues or cell types); (5) increase the translation of encoded protein in
  • excipients of the present invention can include, without limitation, lipidoids, liposomes, lipid nanoparticles, polymers, lipoplexes, core-shell nanoparticles, peptides, proteins, cells transfected with polynucleotide, primary construct, or mmRNA (e.g., for transplantation into a subject), hyaluronidase, nanoparticle mimics and combinations thereof.
  • the formulations of the invention can include one or more excipients, each in an amount that together increases the stability of the polynucleotide, primary construct, or mmRNA, increases cell transfection by the polynucleotide, primary construct, or mmRNA, increases the expression of polynucleotide, primary construct, or mmRNA encoded protein, and/or alters the release profile of polynucleotide, primary construct, or mmRNA encoded proteins.
  • the primary construct and mmRNA of the present invention may be formulated using self-assembled nucleic acid nanoparticles.
  • Formulations of the pharmaceutical compositions described herein may be prepared by any method known or hereafter developed in the art of pharmacology. In general, such preparatory methods include the step of associating the active ingredient with an excipient and/or one or more other accessory ingredients.
  • a pharmaceutical composition in accordance with the present disclosure may be prepared, packaged, and/or sold in bulk, as a single unit dose, and/or as a plurality of single unit doses.
  • a “unit dose” refers to a discrete amount of the pharmaceutical composition comprising a predetermined amount of the active ingredient.
  • the amount of the active ingredient may generally be equal to the dosage of the active ingredient which would be administered to a subject and/or a convenient fraction of such a dosage including, but not limited to, one-half or one-third of such a dosage.
  • Relative amounts of the active ingredient, the pharmaceutically acceptable excipient, and/or any additional ingredients in a pharmaceutical composition in accordance with the present disclosure may vary, depending upon the identity, size, and/or condition of the subject being treated and further depending upon the route by which the composition is to be administered.
  • the composition may comprise between 0.1% and 99% (w/w) of the active ingredient.
  • the formulations described herein may contain at least one mmRNA.
  • the formulations may contain 1, 2, 3, 4 or 5 mmRNA.
  • the formulation may contain modified mRNA encoding proteins selected from categories such as, but not limited to, human proteins, veterinary proteins, bacterial proteins, biological proteins, antibodies, immunogenic proteins, therapeutic peptides and proteins, secreted proteins, plasma membrane proteins, cytoplasmic and cytoskeletal proteins, intrancellular membrane bound proteins, nuclear proteins, proteins associated with human disease and/or proteins associated with non-human diseases.
  • the formulation contains at least three modified mRNA encoding proteins.
  • the formulation contains at least five modified mRNA encoding proteins.
  • compositions may additionally comprise a pharmaceutically acceptable excipient, which, as used herein, includes, but is not limited to, any and all solvents, dispersion media, diluents, or other liquid vehicles, dispersion or suspension aids, surface active agents, isotonic agents, thickening or emulsifying agents, preservatives, and the like, as suited to the particular dosage form desired.
  • a pharmaceutically acceptable excipient includes, but is not limited to, any and all solvents, dispersion media, diluents, or other liquid vehicles, dispersion or suspension aids, surface active agents, isotonic agents, thickening or emulsifying agents, preservatives, and the like, as suited to the particular dosage form desired.
  • excipients for formulating pharmaceutical compositions and techniques for preparing the composition are known in the art (see Remington: The Science and Practice of Pharmacy, 21 st Edition, A. R. Gennaro, Lippincott, Williams & Wilkins, Baltimore, Md
  • any conventional excipient medium may be contemplated within the scope of the present disclosure, except insofar as any conventional excipient medium may be incompatible with a substance or its derivatives, such as by producing any undesirable biological effect or otherwise interacting in a deleterious manner with any other component(s) of the pharmaceutical composition.
  • the particle size of the lipid nanoparticle may be increased and/or decreased.
  • the change in particle size may be able to help counter biological reaction such as, but not limited to, inflammation or may increase the biological effect of the modified mRNA delivered to mammals.
  • compositions include, but are not limited to, inert diluents, surface active agents and/or emulsifiers, preservatives, buffering agents, lubricating agents, and/or oils. Such excipients may optionally be included in the pharmaceutical formulations of the invention.
  • lipidoids The synthesis of lipidoids has been extensively described and formulations containing these compounds are particularly suited for delivery of polynucleotides, primary constructs or mmRNA (see Mahon et al., Bioconjug Chem. 2010 21:1448-1454; Schroeder et al., J Intern Med. 2010 267:9-21; Akinc et al., Nat. Biotechnol. 2008 26:561-569; Love et al., Proc Natl Acad Sci USA. 2010 107:1864-1869; Siegwart et al., Proc Natl Acad Sci USA. 2011 108:12996-3001; all of which are incorporated herein in their entireties).
  • the present disclosure describes their formulation and use in delivering single stranded polynucleotides, primary constructs, or mmRNA.
  • Complexes, micelles, liposomes or particles can be prepared containing these lipidoids and therefore, can result in an effective delivery of the polynucleotide, primary construct, or mmRNA, as judged by the production of an encoded protein, following the injection of a lipidoid formulation via localized and/or systemic routes of administration.
  • Lipidoid complexes of polynucleotides, primary constructs, or mmRNA can be administered by various means including, but not limited to, intravenous, intramuscular, or subcutaneous routes.
  • nucleic acids may be affected by many parameters, including, but not limited to, the formulation composition, nature of particle PEGylation, degree of loading, oligonucleotide to lipid ratio, and biophysical parameters such as, but not limited to, particle size (Akinc et al., Mol Ther. 2009 17:872-879; herein incorporated by reference in its entirety).
  • particle size Akinc et al., Mol Ther. 2009 17:872-879; herein incorporated by reference in its entirety.
  • small changes in the anchor chain length of poly(ethylene glycol) (PEG) lipids may result in significant effects on in vivo efficacy.
  • Formulations with the different lipidoids including, but not limited to penta[3-(1-laurylaminopropionyl)]-triethylenetetramine hydrochloride (TETA-5LAP; aka 98N12-5, see Murugaiah et al., Analytical Biochemistry, 401:61 (2010); herein incorporated by reference in its entirety), C12-200 (including derivatives and variants), and MD1, can be tested for in vivo activity.
  • TETA-5LAP penta[3-(1-laurylaminopropionyl)]-triethylenetetramine hydrochloride
  • C12-200 including derivatives and variants
  • MD1 can be tested for in vivo activity.
  • the lipidoid referred to herein as “C12-200” is disclosed by Love et al., Proc Natl Acad Sci USA. 2010 107:1864-1869 (see FIG. 2 ) and Liu and Huang, Molecular Therapy. 2010 669-670 (see FIG. 2 ); both of which are herein incorporated by reference in their entirety.
  • the lipidoid formulations can include particles comprising either 3 or 4 or more components in addition to polynucleotide, primary construct, or mmRNA.
  • formulations with certain lipidoids include, but are not limited to, 98N12-5 and may contain 42% lipidoid, 48% cholesterol and 10% PEG (C14 alkyl chain length).
  • formulations with certain lipidoids include, but are not limited to, C12-200 and may contain 50% lipidoid, 10% disteroylphosphatidyl choline, 38.5% cholesterol, and 1.5% PEG-DMG.
  • a polynucleotide, primary construct, or mmRNA formulated with a lipidoid for systemic intravenous administration can target the liver.
  • lipidoid may have a molar ratio of 50/10/38.5/1.5 of C12-200/disteroylphosphatidyl choline/cholesterol/PEG-DMG, with a weight ratio of 7 to 1 total lipid to polynucleotide, primary construct, or mmRNA, and a mean particle size of 80 nm may be effective to deliver polynucleotide, primary construct, or mmRNA to hepatocytes (see, Love et al., Proc Natl Acad Sci USA.
  • an MD1 lipidoid-containing formulation may be used to effectively deliver polynucleotide, primary construct, or mmRNA to hepatocytes in vivo.
  • the characteristics of optimized lipidoid formulations for intramuscular or subcutaneous routes may vary significantly depending on the target cell type and the ability of formulations to diffuse through the extracellular matrix into the blood stream. While a particle size of less than 150 nm may be desired for effective hepatocyte delivery due to the size of the endothelial fenestrae (see, Akinc et al., Mol Ther.
  • lipidoid-formulated polynucleotide, primary construct, or mmRNA to deliver the formulation to other cells types including, but not limited to, endothelial cells, myeloid cells, and muscle cells may not be similarly size-limited.
  • Use of lipidoid formulations to deliver siRNA in vivo to other non-hepatocyte cells such as myeloid cells and endothelium has been reported (see Akinc et al., Nat Biotechnol. 2008 26:561-569; Leuschner et al., Nat Biotechnol. 2011 29:1005-1010; Cho et al. Adv. Funct. Mater.
  • lipidoid formulations may have a similar component molar ratio. Different ratios of lipidoids and other components including, but not limited to, disteroylphosphatidyl choline, cholesterol and PEG-DMG, may be used to optimize the formulation of the polynucleotide, primary construct, or mmRNA for delivery to different cell types including, but not limited to, hepatocytes, myeloid cells, muscle cells, etc.
  • the component molar ratio may include, but is not limited to, 50% C12-200, 10% disteroylphosphatidyl choline, 38.5% cholesterol, and %1.5 PEG-DMG (see Leuschner et al., Nat Biotechnol 2011 29:1005-1010; herein incorporated by reference in its entirety).
  • the use of lipidoid formulations for the localized delivery of nucleic acids to cells (such as, but not limited to, adipose cells and muscle cells) via either subcutaneous or intramuscular delivery may not require all of the formulation components desired for systemic delivery, and as such may comprise only the lipidoid and the polynucleotide, primary construct, or mmRNA.
  • Combinations of different lipidoids may be used to improve the efficacy of polynucleotide, primary construct, or mmRNA directed protein production as the lipidoids may be able to increase cell transfection by the polynucleotide, primary construct, or mmRNA; and/or increase the translation of encoded protein (see Whitehead et al., Mol. Ther. 2011, 19:1688-1694, herein incorporated by reference in its entirety).
  • the polynucleotide, primary construct, and mmRNA of the invention can be formulated using one or more liposomes, lipoplexes, or lipid nanoparticles.
  • pharmaceutical compositions of polynucleotide, primary construct, or mmRNA include liposomes. Liposomes are artificially-prepared vesicles which may primarily be composed of a lipid bilayer and may be used as a delivery vehicle for the administration of nutrients and pharmaceutical formulations.
  • Liposomes can be of different sizes such as, but not limited to, a multilamellar vesicle (MLV) which may be hundreds of nanometers in diameter and may contain a series of concentric bilayers separated by narrow aqueous compartments, a small unicellular vesicle (SUV) which may be smaller than 50 nm in diameter, and a large unilamellar vesicle (LUV) which may be between 50 and 500 nm in diameter.
  • MLV multilamellar vesicle
  • SUV small unicellular vesicle
  • LUV large unilamellar vesicle
  • Liposome design may include, but is not limited to, opsonins or ligands in order to improve the attachment of liposomes to unhealthy tissue or to activate events such as, but not limited to, endocytosis.
  • Liposomes may contain a low or a high pH in order to improve the delivery of the pharmaceutical formulations.
  • liposomes may depend on the physicochemical characteristics such as, but not limited to, the pharmaceutical formulation entrapped and the liposomal ingredients, the nature of the medium in which the lipid vesicles are dispersed, the effective concentration of the entrapped substance and its potential toxicity, any additional processes involved during the application and/or delivery of the vesicles, the optimization size, polydispersity and the shelf-life of the vesicles for the intended application, and the batch-to-batch reproducibility and possibility of large-scale production of safe and efficient liposomal products.
  • compositions described herein may include, without limitation, liposomes such as those formed from 1,2-dioleyloxy-N,N-dimethylaminopropane (DODMA) liposomes, DiLa2 liposomes from Marina Biotech (Bothell, Wash.), 1,2-dilinoleyloxy-3-dimethylaminopropane (DLin-DMA), 2,2-dilinoleyl-4-(2-dimethylaminoethyl)-[1,3]-dioxolane (DLin-KC2-DMA), and MC3 (US20100324120; herein incorporated by reference in its entirety) and liposomes which may deliver small molecule drugs such as, but not limited to, DOXIL® from Janssen Biotech, Inc. (Horsham, Pa.).
  • DOXIL® 1,2-dioleyloxy-N,N-dimethylaminopropane
  • compositions described herein may include, without limitation, liposomes such as those formed from the synthesis of stabilized plasmid-lipid particles (SPLP) or stabilized nucleic acid lipid particle (SNALP) that have been previously described and shown to be suitable for oligonucleotide delivery in vitro and in vivo (see Wheeler et al. Gene Therapy. 1999 6:271-281; Zhang et al. Gene Therapy. 1999 6:1438-1447; Jeffs et al. Pharm Res. 2005 22:362-372; Morrissey et al., Nat Biotechnol. 2005 2:1002-1007; Zimmermann et al., Nature. 2006 441:111-114; Heyes et al.
  • SPLP stabilized plasmid-lipid particles
  • SNALP stabilized nucleic acid lipid particle
  • the original manufacture method by Wheeler et al. was a detergent dialysis method, which was later improved by Jeffs et al. and is referred to as the spontaneous vesicle formation method.
  • the liposome formulations are composed of 3 to 4 lipid components in addition to the polynucleotide, primary construct, or mmRNA.
  • a liposome can contain, but is not limited to, 55% cholesterol, 20% disteroylphosphatidyl choline (DSPC), 10% PEG-S-DSG, and 15% 1,2-dioleyloxy-N,N-dimethylaminopropane (DODMA), as described by Jeffs et al.
  • DSPC disteroylphosphatidyl choline
  • PEG-S-DSG 10% PEG-S-DSG
  • DODMA 1,2-dioleyloxy-N,N-dimethylaminopropane
  • certain liposome formulations may contain, but are not limited to, 48% cholesterol, 20% DSPC, 2% PEG-c-DMA, and 30% cationic lipid, where the cationic lipid can be 1,2-distearloxy-N,N-dimethylaminopropane (DSDMA), DODMA, DLin-DMA, or 1,2-dilinolenyloxy-3-dimethylaminopropane (DLenDMA), as described by Heyes et al.
  • DSDMA 1,2-distearloxy-N,N-dimethylaminopropane
  • DODMA 1,2-dilinolenyloxy-3-dimethylaminopropane
  • compositions may include liposomes which may be formed to deliver mmRNA which may encode at least one immunogen.
  • the mmRNA may be encapsulated by the liposome and/or it may be contained in an aqueous core which may then be encapsulated by the liposome (see International Pub. Nos. WO2012031046, WO2012031043, WO2012030901 and WO2012006378; each of which is herein incorporated by reference in their entirety).
  • the mmRNA which may encode an immunogen may be formulated in a cationic oil-in-water emulsion where the emulsion particle comprises an oil core and a cationic lipid which can interact with the mmRNA anchoring the molecule to the emulsion particle (see International Pub. No. WO2012006380; herein incorporated by reference in its entirety).
  • the lipid formulation may include at least cationic lipid, a lipid which may enhance transfection and a least one lipid which contains a hydrophilic head group linked to a lipid moiety (International Pub. No. WO2011076807 and U.S. Pub. No. 20110200582; each of which is herein incorporated by reference in their entirety).
  • the polynucleotides, primary constructs and/or mmRNA encoding an immunogen may be formulated in a lipid vesicle which may have crosslinks between functionalized lipid bilayers (see U.S. Pub. No. 20120177724, herein incorporated by reference in its entirety).
  • the polynucleotides, primary constructs and/or mmRNA may be formulated in a lipid vesicle which may have crosslinks between functionalized lipid bilayers.
  • the polynucleotides, primary constructs and/or mmRNA may be formulated in a liposome comprising a cationic lipid.
  • the liposome may have a molar ratio of nitrogen atoms in the cationic lipid to the phophates in the RNA (N:P ratio) of between 1:1 and 20:1 as described in International Publication No. WO2013006825, herein incorporated by reference in its entirety.
  • the liposome may have a N:P ratio of greater than 20:1 or less than 1:1.
  • the polynucleotides, primary constructs and/or mmRNA may be formulated in a lipid-polycation complex.
  • the formation of the lipid-polycation complex may be accomplished by methods known in the art and/or as described in U.S. Pub. No. 20120178702, herein incorporated by reference in its entirety.
  • the polycation may include a cationic peptide or a polypeptide such as, but not limited to, polylysine, polyornithine and/or polyarginine and the cationic peptides described in International Pub. No. WO2012013326; herein incorporated by reference in its entirety.
  • the polynucleotides, primary constructs and/or mmRNA may be formulated in a lipid-polycation complex which may further include a neutral lipid such as, but not limited to, cholesterol or dioleoyl phosphatidylethanolamine (DOPE).
  • a neutral lipid such as, but not limited to, cholesterol or dioleoyl phosphatidylethanolamine (DOPE).
  • DOPE dioleoyl phosphatidylethanolamine
  • the liposome formulation may be influenced by, but not limited to, the selection of the cationic lipid component, the degree of cationic lipid saturation, the nature of the PEGylation, ratio of all components and biophysical parameters such as size.
  • the liposome formulation was composed of 57.1% cationic lipid, 7.1% dipalmitoylphosphatidylcholine, 34.3% cholesterol, and 1.4% PEG-c-DMA.
  • changing the composition of the cationic lipid could more effectively deliver siRNA to various antigen presenting cells (Basha et al. Mol Ther. 2011 19:2186-2200; herein incorporated by reference in its entirety).
  • the ratio of PEG in the lipid nanoparticle (LNP) formulations may be increased or decreased and/or the carbon chain length of the PEG lipid may be modified from C14 to C18 to alter the pharmacokinetics and/or biodistribution of the LNP formulations.
  • LNP formulations may contain 1-5% of the lipid molar ratio of PEG-c-DOMG as compared to the cationic lipid, DSPC and cholesterol.
  • the PEG-c-DOMG may be replaced with a PEG lipid such as, but not limited to, PEG-DSG (1,2-Distearoyl-sn-glycerol, methoxypolyethylene glycol) or PEG-DPG (1,2-Dipalmitoyl-sn-glycerol, methoxypolyethylene glycol).
  • PEG-DSG 1,2-Distearoyl-sn-glycerol, methoxypolyethylene glycol
  • PEG-DPG 1,2-Dipalmitoyl-sn-glycerol, methoxypolyethylene glycol
  • the cationic lipid may be selected from any lipid known in the art such as, but not limited to, DLin-MC3-DMA, DLin-DMA, C12-200 and DLin-KC2-DMA.
  • the polynucleotides, primary constructs or mmRNA may be formulated in a lipid nanoparticle such as those described in International Publication No. WO2012170930, herein incorporated by reference in its entirety.
  • the cationic lipid may be selected from, but not limited to, a cationic lipid described in International Publication Nos. WO2012040184, WO2011153120, WO2011149733, WO2011090965, WO2011043913, WO2011022460, WO2012061259, WO2012054365, WO2012044638, WO2010080724, WO201021865 and WO2008103276, U.S. Pat. Nos. 7,893,302, 7,404,969 and 8,283,333 and US Patent Publication No. US20100036115 and US20120202871; each of which is herein incorporated by reference in their entirety.
  • the cationic lipid may be selected from, but not limited to, formula A described in International Publication Nos. WO2012040184, WO2011153120, WO2011149733, WO2011090965, WO2011043913, WO2011022460, WO2012061259, WO2012054365 and WO2012044638; each of which is herein incorporated by reference in their entirety.
  • the cationic lipid may be selected from, but not limited to, formula CLI-CLXXIX of International Publication No. WO2008103276, formula CLI-CLXXIX of U.S. Pat. No. 7,893,302, formula CLI-CLXXXXII of U.S. Pat. No.
  • the cationic lipid may be selected from (20Z,23Z)-N,N-dimethylnonacosa-20,23-dien-10-amine, (17Z,20Z)-N,N-dimemylhexacosa-17,20-dien-9-amine, (1Z,19Z)-N5N-dimethylpentacosa-16,19-dien-8-amine, (13Z,16Z)-N,N-dimethyldocosa-13,16-dien-5-amine, (12Z,15Z)-N,N-dimethylhenicosa-12,15-dien-4-amine, (14Z,17Z)-N,N-dimethyltricosa-14,17-dien-6-amine, (15Z,18Z)-N,N-dimethyltetracosa-15,
  • the lipid may be a cleavable lipid such as those described in International Publication No. WO2012170889, herein incorporated by reference in its entirety.
  • the cationic lipid may be synthesized by methods known in the art and/or as described in International Publication Nos. WO2012040184, WO2011153120, WO2011149733, WO2011090965, WO2011043913, WO2011022460, WO2012061259, WO2012054365, WO2012044638, WO2010080724 and WO201021865; each of which is herein incorporated by reference in their entirety.
  • the LNP formulations of the polynucleotides, primary constructs and/or mmRNA may contain PEG-c-DOMG at 3% lipid molar ratio. In another embodiment, the LNP formulations polynucleotides, primary constructs and/or mmRNA may contain PEG-c-DOMG at 1.5% lipid molar ratio.
  • the pharmaceutical compositions of the polynucleotides, primary constructs and/or mmRNA may include at least one of the PEGylated lipids described in International Publication No. 2012099755, herein incorporated by reference.
  • the LNP formulation may contain PEG-DMG 2000 (1,2-dimyristoyl-sn-glycero-3-phophoethanolamine-N-[methoxy(polyethylene glycol)-2000).
  • the LNP formulation may contain PEG-DMG 2000, a cationic lipid known in the art and at least one other component.
  • the LNP formulation may contain PEG-DMG 2000, a cationic lipid known in the art, DSPC and cholesterol.
  • the LNP formulation may contain PEG-DMG 2000, DLin-DMA, DSPC and cholesterol.
  • the LNP formulation may contain PEG-DMG 2000, DLin-DMA, DSPC and cholesterol in a molar ratio of 2:40:10:48 (see e.g., Geall et al., Nonviral delivery of self-amplifying RNA vaccines, PNAS 2012; PMID: 22908294; herein incorporated by reference in its entirety).
  • modified RNA described herein may be formulated in a nanoparticle to be delivered by a parenteral route as described in U.S. Pub. No. 20120207845; herein incorporated by reference in its entirety.
  • the LNP formulation may be formulated by the methods described in International Publication Nos. WO2011127255 or WO2008103276, each of which is herein incorporated by reference in their entirety.
  • modified RNA described herein may be encapsulated in LNP formulations as described in WO2011127255 and/or WO2008103276; each of which is herein incorporated by reference in their entirety.
  • LNP formulations described herein may comprise a polycationic composition.
  • the polycationic composition may be selected from formula 1-60 of US Patent Publication No. US20050222064; herein incorporated by reference in its entirety.
  • the LNP formulations comprising a polycationic composition may be used for the delivery of the modified RNA described herein in vivo and/or in vitro.
  • the LNP formulations described herein may additionally comprise a permeability enhancer molecule.
  • a permeability enhancer molecule are described in US Patent Publication No. US20050222064; herein incorporated by reference in its entirety.
  • the pharmaceutical compositions may be formulated in liposomes such as, but not limited to, DiLa2 liposomes (Marina Biotech, Bothell, Wash.), SMARTICLES® (Marina Biotech, Bothell, Wash.), neutral DOPC (1,2-dioleoyl-sn-glycero-3-phosphocholine) based liposomes (e.g., siRNA delivery for ovarian cancer (Landen et al. Cancer Biology & Therapy 2006 5(12)1708-1713); herein incorporated by reference in its entirety) and hyaluronan-coated liposomes (Quiet Therapeutics, Israel).
  • DiLa2 liposomes Marina Biotech, Bothell, Wash.
  • SMARTICLES® Marina Biotech, Bothell, Wash.
  • neutral DOPC 1,2-dioleoyl-sn-glycero-3-phosphocholine
  • hyaluronan-coated liposomes Quiet Therapeutics, Israel
  • the nanoparticle formulations may be a carbohydrate nanoparticle comprising a carbohydrate carrier and a modified nucleic acid molecule (e.g., mmRNA).
  • the carbohydrate carrier may include, but is not limited to, an anhydride-modified phytoglycogen or glycogen-type material, phtoglycogen octenyl succinate, phytoglycogen beta-dextrin, anhydride-modified phytoglycogen beta-dextrin. (See e.g., International Publication No. WO2012109121; herein incorporated by reference in its entirety).
  • Lipid nanoparticle formulations may be improved by replacing the cationic lipid with a biodegradable cationic lipid which is known as a rapidly eliminated lipid nanoparticle (reLNP).
  • Ionizable cationic lipids such as, but not limited to, DLinDMA, DLin-KC2-DMA, and DLin-MC3-DMA, have been shown to accumulate in plasma and tissues over time and may be a potential source of toxicity.
  • the rapid metabolism of the rapidly eliminated lipids can improve the tolerability and therapeutic index of the lipid nanoparticles by an order of magnitude from a 1 mg/kg dose to a 10 mg/kg dose in rat.
  • ester linkage can improve the degradation and metabolism profile of the cationic component, while still maintaining the activity of the reLNP formulation.
  • the ester linkage can be internally located within the lipid chain or it may be terminally located at the terminal end of the lipid chain.
  • the internal ester linkage may replace any carbon in the lipid chain.
  • the internal ester linkage may be located on either side of the saturated carbon.
  • reLNPs include,
  • an immune response may be elicited by delivering a lipid nanoparticle which may include a nanospecies, a polymer and an immunogen.
  • a lipid nanoparticle which may include a nanospecies, a polymer and an immunogen.
  • the polymer may encapsulate the nanospecies or partially encapsulate the nanospecies.
  • the immunogen may be a recombinant protein, a modified RNA and/or a primary construct described herein.
  • the lipid nanoparticle may be formulated for use in a vaccine such as, but not limited to, against a pathogen.
  • Lipid nanoparticles may be engineered to alter the surface properties of particles so the lipid nanoparticles may penetrate the mucosal barrier.
  • Mucus is located on mucosal tissue such as, but not limted to, oral (e.g., the buccal and esophageal membranes and tonsil tissue), ophthalmic, gastrointestinal (e.g., stomach, small intestine, large intestine, colon, rectum), nasal, respiratory (e.g., nasal, pharyngeal, tracheal and bronchial membranes), genital (e.g., vaginal, cervical and urethral membranes).
  • oral e.g., the buccal and esophageal membranes and tonsil tissue
  • ophthalmic e.g., gastrointestinal (e.g., stomach, small intestine, large intestine, colon, rectum)
  • nasal, respiratory e.g., nasal, pharyngeal, tracheal and bron
  • Nanoparticles larger than 10-200 nm which are preferred for higher drug encapsulation efficiency and the ability to provide the sustained delivery of a wide array of drugs have been thought to be too large to rapidly diffuse through mucosal barriers. Mucus is continuously secreted, shed, discarded or digested and recycled so most of the trapped particles may be removed from the mucosla tissue within seconds or within a few hours. Large polymeric nanoparticles (200 nm-500 nm in diameter) which have been coated densely with a low molecular weight polyethylene glycol (PEG) diffused through mucus only 4 to 6-fold lower than the same particles diffusing in water (Lai et al. PNAS 2007 104(5):1482-487; Lai et al.
  • PEG polyethylene glycol
  • the transport of nanoparticles may be determined using rates of permeation and/or fluorescent microscopy techniques including, but not limited to, fluorescence recovery after photobleaching (FRAP) and high resolution multiple particle tracking (MPT).
  • FRAP fluorescence recovery after photobleaching
  • MPT high resolution multiple particle tracking
  • compositions which can penetrate a mucosal barrier may be made as described in U.S. Pat. No. 8,241,670, herein incorporated by reference in its entirety.
  • the lipid nanoparticle engineered to penetrate mucus may comprise a polymeric material (i.e. a polymeric core) and/or a polymer-vitamin conjugate and/or a tri-block co-polymer.
  • the polymeric material may include, but is not limited to, polyamines, polyethers, polyamides, polyesters, polycarbamates, polyureas, polycarbonates, poly(styrenes), polyimides, polysulfones, polyurethanes, polyacetylenes, polyethylenes, polyethyeneimines, polyisocyanates, polyacrylates, polymethacrylates, polyacrylonitriles, and polyarylates.
  • the polymeric material may be biodegradable and/or biocompatible.
  • the polymeric material may additionally be irradiated.
  • the polymeric material may be gamma irradiated (See e.g., International App. No. WO201282165, herein incorporated by reference in its entirety).
  • Non-limiting examples of specific polymers include poly(caprolactone) (PCL), ethylene vinyl acetate polymer (EVA), poly(lactic acid) (PLA), poly(L-lactic acid) (PLLA), poly(glycolic acid) (PGA), poly(lactic acid-co-glycolic acid) (PLGA), poly(L-lactic acid-co-glycolic acid) (PLLGA), poly(D,L-lactide) (PDLA), poly(L-lactide) (PLLA), poly(D,L-lactide-co-caprolactone), poly(D,L-lactide-co-caprolactone-co-glycolide), poly(D,L-lactide-co-PEO-co-D,L-lactide), poly(D,L-lactide-co-PPO-co-D,L-lactide), polyalkyl cyanoacralate, polyurethane, poly-L-lysine (PLL), hydroxypropyl methacrylate (
  • the lipid nanoparticle may be coated or associated with a co-polymer such as, but not limited to, a block co-polymer (such as a branched polyether-polyamide block copolymer described in International Publication No. WO2013012476, herein incorporated by reference in its entirety), and (poly(ethylene glycol))-(poly(propylene oxide))-(poly(ethylene glycol)) triblock copolymer (see e.g., US Publication 20120121718 and US Publication 20100003337 and U.S. Pat. No. 8,263,665; each of which is herein incorporated by reference in their entirety).
  • a block co-polymer such as a branched polyether-polyamide block copolymer described in International Publication No. WO2013012476, herein incorporated by reference in its entirety
  • the co-polymer may be a polymer that is generally regarded as safe (GRAS) and the formation of the lipid nanoparticle may be in such a way that no new chemical entities are created.
  • the lipid nanoparticle may comprise poloxamers coating PLGA nanoparticles without forming new chemical entities which are still able to rapidly penetrate human mucus (Yang et al. Angew. Chem. Int. Ed. 2011 50:2597-2600; herein incorporated by reference in its entirety).
  • the vitamin of the polymer-vitamin conjugate may be vitamin E.
  • the vitamin portion of the conjugate may be substituted with other suitable components such as, but not limited to, vitamin A, vitamin E, other vitamins, cholesterol, a hydrophobic moiety, or a hydrophobic component of other surfactants (e.g., sterol chains, fatty acids, hydrocarbon chains and alkylene oxide chains).
  • the lipid nanoparticle engineered to penetrate mucus may include surface altering agents such as, but not limited to, mmRNA, anionic proteins (e.g., bovine serum albumin), surfactants (e.g., cationic surfactants such as for example dimethyldioctadecyl-ammonium bromide), sugars or sugar derivatives (e.g., cyclodextrin), nucleic acids, polymers (e.g., heparin, polyethylene glycol and poloxamer), mucolytic agents (e.g., N-acetylcysteine, mugwort, bromelain, papain, clerodendrum, acetylcysteine, bromhexine, carbocisteine, eprazinone, mesna, ambroxol, sobrerol, domiodol, letosteine, stepronin, tiopronin, gelsolin, thymosin ⁇ 4 dor
  • the surface altering agent may be embedded or enmeshed in the particle's surface or disposed (e.g., by coating, adsorption, covalent linkage, or other process) on the surface of the lipid nanoparticle.
  • the mucus penetrating lipid nanoparticles may comprise at least one mmRNA described herein.
  • the mmRNA may be encapsulated in the lipid nanoparticle and/or disposed on the surface of the paricle.
  • the mmRNA may be covalently coupled to the lipid nanoparticle.
  • Formulations of mucus penetrating lipid nanoparticles may comprise a plurality of nanoparticles. Further, the formulations may contain particles which may interact with the mucus and alter the structural and/or adhesive properties of the surrounding mucus to decrease mucoadhesion which may increase the delivery of the mucus penetrating lipid nanoparticles to the mucosal tissue.
  • the polynucleotide, primary construct, or mmRNA is formulated as a lipoplex, such as, without limitation, the ATUPLEXTM system, the DACC system, the DBTC system and other siRNA-lipoplex technology from Silence Therapeutics (London, United Kingdom), STEMFECTTM from STEMGENT® (Cambridge, Mass.), and polyethylenimine (PEI) or protamine-based targeted and non-targeted delivery of nucleic acids acids acids (Aleku et al. Cancer Res. 2008 68:9788-9798; Strumberg et al.
  • a lipoplex such as, without limitation, the ATUPLEXTM system, the DACC system, the DBTC system and other siRNA-lipoplex technology from Silence Therapeutics (London, United Kingdom), STEMFECTTM from STEMGENT® (Cambridge, Mass.), and polyethylenimine (PEI) or protamine-based targeted and non-targeted delivery of nucleic acids acids acids (Aleku
  • such formulations may also be constructed or compositions altered such that they passively or actively are directed to different cell types in vivo, including but not limited to hepatocytes, immune cells, tumor cells, endothelial cells, antigen presenting cells, and leukocytes (Akinc et al. Mol. Ther. 2010 18:1357-1364; Song et al., Nat Biotechnol. 2005 23:709-717; Judge et al., J Clin Invest.
  • DLin-DMA DLin-KC2-DMA
  • DLin-MC3-DMA-based lipid nanoparticle formulations which have been shown to bind to apolipoprotein E and promote binding and uptake of these formulations into hepatocytes in vivo (Akinc et al. Mol. Ther. 2010 18:1357-1364; herein incorporated by reference in its entirety).
  • Formulations can also be selectively targeted through expression of different ligands on their surface as exemplified by, but not limited by, folate, transferrin, N-acetylgalactosamine (GalNAc), and antibody targeted approaches (Kolhatkar et al., Curr Drug Discov Technol. 2011 8:197-206; Musacchio and Torchilin, Front Biosci. 2011 16:1388-1412; Yu et al., Mol Membr Biol. 2010 27:286-298; Patil et al., Crit Rev Ther Drug Carrier Syst. 2008 25:1-61; Benoit et al., Biomacromolecules.
  • the polynucleotide, primary construct, or mmRNA is formulated as a solid lipid nanoparticle.
  • a solid lipid nanoparticle may be spherical with an average diameter between 10 to 1000 nm. SLN possess a solid lipid core matrix that can solubilize lipophilic molecules and may be stabilized with surfactants and/or emulsifiers.
  • the lipid nanoparticle may be a self-assembly lipid-polymer nanoparticle (see Zhang et al., ACS Nano, 2008, 2 (8), pp 1696-1702; herein incorporated by reference in its entirety).
  • Liposomes, lipoplexes, or lipid nanoparticles may be used to improve the efficacy of polynucleotide, primary construct, or mmRNA directed protein production as these formulations may be able to increase cell transfection by the polynucleotide, primary construct, or mmRNA; and/or increase the translation of encoded protein.
  • One such example involves the use of lipid encapsulation to enable the effective systemic delivery of polyplex plasmid DNA (Heyes et al., Mol Ther. 2007 15:713-720; herein incorporated by reference in its entirety).
  • the liposomes, lipoplexes, or lipid nanoparticles may also be used to increase the stability of the polynucleotide, primary construct, or mmRNA.
  • the polynucleotides, primary constructs, and/or the mmRNA of the present invention can be formulated for controlled release and/or targeted delivery.
  • controlled release refers to a pharmaceutical composition or compound release profile that conforms to a particular pattern of release to effect a therapeutic outcome.
  • the polynucleotides, primary constructs or the mmRNA may be encapsulated into a delivery agent described herein and/or known in the art for controlled release and/or targeted delivery.
  • the term “encapsulate” means to enclose, surround or encase. As it relates to the formulation of the compounds of the invention, encapsulation may be substantial, complete or partial.
  • substantially encapsulated means that at least greater than 50, 60, 70, 80, 85, 90, 95, 96, 97, 98, 99, 99.9, 99.9 or greater than 99.999% of the pharmaceutical composition or compound of the invention may be enclosed, surrounded or encased within the delivery agent.
  • Partially encapsulation means that less than 10, 10, 20, 30, 40 50 or less of the pharmaceutical composition or compound of the invention may be enclosed, surrounded or encased within the delivery agent.
  • encapsulation may be determined by measuring the escape or the activity of the pharmaceutical composition or compound of the invention using fluorescence and/or electron micrograph.
  • At least 1, 5, 10, 20, 30, 40, 50, 60, 70, 80, 85, 90, 95, 96, 97, 98, 99, 99.9, 99.99 or greater than 99.99% of the pharmaceutical composition or compound of the invention are encapsulated in the delivery agent.
  • the controlled release formulation may include, but is not limited to, tri-block co-polymers.
  • the formulation may include two different types of tri-block co-polymers (International Pub. No. WO2012131104 and WO2012131106; each of which is herein incorporated by reference in its entirety).
  • the polynucleotides, primary constructs, or the mmRNA may be encapsulated into a lipid nanoparticle or a rapidly eliminated lipid nanoparticle and the lipid nanoparticles or a rapidly eliminated lipid nanoparticle may then be encapsulated into a polymer, hydrogel and/or surgical sealant described herein and/or known in the art.
  • the polymer, hydrogel or surgical sealant may be PLGA, ethylene vinyl acetate (EVAc), poloxamer, GELSITE® (Nanotherapeutics, Inc.
  • HYLENEX® Hazyme Therapeutics, San Diego Calif.
  • surgical sealants such as fibrinogen polymers (Ethicon Inc. Cornelia, Ga.), TISSELL® (Baxter International, Inc Deerfield, Ill.), PEG-based sealants, and COSEAL® (Baxter International, Inc Deerfield, Ill.).
  • the lipid nanoparticle may be encapsulated into any polymer known in the art which may form a gel when injected into a subject.
  • the lipid nanoparticle may be encapsulated into a polymer matrix which may be biodegradable.
  • the polynucleotide, primary construct, or mmRNA formulation for controlled release and/or targeted delivery may also include at least one controlled release coating.
  • Controlled release coatings include, but are not limited to, OPADRY®, polyvinylpyrrolidone/vinyl acetate copolymer, polyvinylpyrrolidone, hydroxypropyl methylcellulose, hydroxypropyl cellulose, hydroxyethyl cellulose, EUDRAGIT RL®, EUDRAGIT RS® and cellulose derivatives such as ethylcellulose aqueous dispersions (AQUACOAT® and SURELEASE®).
  • the controlled release and/or targeted delivery formulation may comprise at least one degradable polyester which may contain polycationic side chains.
  • Degradable polyesters include, but are not limited to, poly(serine ester), poly(L-lactide-co-L-lysine), poly(4-hydroxy-L-proline ester), and combinations thereof.
  • the degradable polyesters may include a PEG conjugation to form a PEGylated polymer.
  • the polynucleotides, primary constructs, and/or the mmRNA of the present invention may be encapsulated in a therapeutic nanoparticle.
  • Therapeutic nanoparticles may be formulated by methods described herein and known in the art such as, but not limited to, International Pub Nos. WO2010005740, WO2010030763, WO2010005721, WO2010005723, WO2012054923, US Pub. Nos. US20110262491, US20100104645, US20100087337, US20100068285, US20110274759, US20100068286 and US20120288541 and U.S. Pat. Nos.
  • therapeutic polymer nanoparticles may be identified by the methods described in US Pub No. US20120140790, herein incorporated by reference in its entirety.
  • the therapeutic nanoparticle may be formulated for sustained release.
  • sustained release refers to a pharmaceutical composition or compound that conforms to a release rate over a specific period of time. The period of time may include, but is not limited to, hours, days, weeks, months and years.
  • the sustained release nanoparticle may comprise a polymer and a therapeutic agent such as, but not limited to, the polynucleotides, primary constructs, and mmRNA of the present invention (see International Pub No. 2010075072 and US Pub No. US20100216804, US20110217377 and US20120201859, each of which is herein incorporated by reference in their entirety).
  • the therapeutic nanoparticles may be formulated to be target specific.
  • the thereapeutic nanoparticles may include a corticosteroid (see International Pub. No. WO2011084518; herein incorporated by reference in its entirety).
  • the therapeutic nanoparticles may be formulated to be cancer specific.
  • the therapeutic nanoparticles may be formulated in nanoparticles described in International Pub No. WO2008121949, WO2010005726, WO2010005725, WO2011084521 and US Pub No. US20100069426, US20120004293 and US20100104655, each of which is herein incorporated by reference in their entirety.
  • the nanoparticles of the present invention may comprise a polymeric matrix.
  • the nanoparticle may comprise two or more polymers such as, but not limited to, polyethylenes, polycarbonates, polyanhydrides, polyhydroxyacids, polypropylfumerates, polycaprolactones, polyamides, polyacetals, polyethers, polyesters, poly(orthoesters), polycyanoacrylates, polyvinyl alcohols, polyurethanes, polyphosphazenes, polyacrylates, polymethacrylates, polycyanoacrylates, polyureas, polystyrenes, polyamines, polylysine, poly(ethylene imine), poly(serine ester), poly(L-lactide-co-L-lysine), poly(4-hydroxy-L-proline ester) or combinations thereof.
  • the therapeutic nanoparticle comprises a diblock copolymer.
  • the diblock copolymer may include PEG in combination with a polymer such as, but not limited to, polyethylenes, polycarbonates, polyanhydrides, polyhydroxyacids, polypropylfumerates, polycaprolactones, polyamides, polyacetals, polyethers, polyesters, poly(orthoesters), polycyanoacrylates, polyvinyl alcohols, polyurethanes, polyphosphazenes, polyacrylates, polymethacrylates, polycyanoacrylates, polyureas, polystyrenes, polyamines, polylysine, poly(ethylene imine), poly(serine ester), poly(L-lactide-co-L-lysine), poly(4-hydroxy-L-proline ester) or combinations thereof
  • a polymer such as, but not limited to, polyethylenes, polycarbonates, polyanhydrides, polyhydroxyacids, polypropylfumerates,
  • the therapeutic nanoparticle comprises a PLGA-PEG block copolymer (see US Pub. No. US20120004293 and U.S. Pat. No. 8,236,330, each of which is herein incorporated by reference in their entirety).
  • the therapeutic nanoparticle is a stealth nanoparticle comprising a diblock copolymer of PEG and PLA or PEG and PLGA (see U.S. Pat. No. 8,246,968 and International Publication No. WO2012166923, each of which is herein incorporated by reference in its entirety).
  • the therapeutic nanoparticle may comprise a multiblock copolymer (See e.g., U.S. Pat. Nos. 8,263,665 and 8,287,910; each of which is herein incorporated by reference in its entirety).
  • the block copolymers described herein may be included in a polyion complex comprising a non-polymeric micelle and the block copolymer.
  • a polyion complex comprising a non-polymeric micelle and the block copolymer.
  • the therapeutic nanoparticle may comprise at least one acrylic polymer.
  • Acrylic polymers include but are not limited to, acrylic acid, methacrylic acid, acrylic acid and methacrylic acid copolymers, methyl methacrylate copolymers, ethoxyethyl methacrylates, cyanoethyl methacrylate, amino alkyl methacrylate copolymer, poly(acrylic acid), poly(methacrylic acid), polycyanoacrylates and combinations thereof
  • the therapeutic nanoparticles may comprise at least one cationic polymer described herein and/or known in the art.
  • the therapeutic nanoparticles may comprise at least one amine-containing polymer such as, but not limited to polylysine, polyethylene imine, poly(amidoamine) dendrimers, poly(beta-amino esters) (See e.g., U.S. Pat. No. 8,287,849; herein incorporated by reference in its entirety) and combinations thereof.
  • amine-containing polymer such as, but not limited to polylysine, polyethylene imine, poly(amidoamine) dendrimers, poly(beta-amino esters) (See e.g., U.S. Pat. No. 8,287,849; herein incorporated by reference in its entirety) and combinations thereof.
  • the therapeutic nanoparticles may comprise at least one degradable polyester which may contain polycationic side chains.
  • Degradable polyesters include, but are not limited to, poly(serine ester), poly(L-lactide-co-L-lysine), poly(4-hydroxy-L-proline ester), and combinations thereof.
  • the degradable polyesters may include a PEG conjugation to form a PEGylated polymer.
  • the therapeutic nanoparticle may include a conjugation of at least one targeting ligand.
  • the targeting ligand may be any ligand known in the art such as, but not limited to, a monoclonal antibody. (Kirpotin et al, Cancer Res. 2006 66:6732-6740; herein incorporated by reference in its entirety).
  • the therapeutic nanoparticle may be formulated in an aqueous solution which may be used to target cancer (see International Pub No. WO2011084513 and US Pub No. US20110294717, each of which is herein incorporated by reference in their entirety).
  • the polynucleotides, primary constructs, or mmRNA may be encapsulated in, linked to and/or associated with synthetic nanocarriers.
  • Synthetic nanocarriers include, but are not limited to, those described in International Pub. Nos. WO2010005740, WO2010030763, WO201213501, WO2012149252, WO2012149255, WO2012149259, WO2012149265, WO2012149268, WO2012149282, WO2012149301, WO2012149393, WO2012149405, WO2012149411, WO2012149454 and WO2013019669, and US Pub. Nos.
  • the synthetic nanocarriers may be formulated using methods known in the art and/or described herein. As a non-limiting example, the synthetic nanocarriers may be formulated by the methods described in International Pub Nos. WO2010005740, WO2010030763 and WO201213501 and US Pub. Nos. US20110262491, US20100104645, US20100087337 and US2012024422, each of which is herein incorporated by reference in their entirety. In another embodiment, the synthetic nanocarrier formulations may be lyophilized by methods described in International Pub. No. WO2011072218 and U.S. Pat. No. 8,211,473; each of which is herein incorporated by reference in their entirety.
  • the synthetic nanocarriers may contain reactive groups to release the polynucleotides, primary constructs and/or mmRNA described herein (see International Pub. No. WO20120952552 and US Pub No. US20120171229, each of which is herein incorporated by reference in their entirety).
  • the synthetic nanocarriers may contain an immunostimulatory agent to enhance the immune response from delivery of the synthetic nanocarrier.
  • the synthetic nanocarrier may comprise a Th1 immunostimulatory agent which may enhance a Th1-based response of the immune system (see International Pub No. WO2010123569 and US Pub. No. US20110223201, each of which is herein incorporated by reference in its entirety).
  • the synthetic nanocarriers may be formulated for targeted release.
  • the synthetic nanocarrier is formulated to release the polynucleotides, primary constructs and/or mmRNA at a specified pH and/or after a desired time interval.
  • the synthetic nanoparticle may be formulated to release the polynucleotides, primary constructs and/or mmRNA after 24 hours and/or at a pH of 4.5 (see International Pub. Nos. WO2010138193 and WO2010138194 and US Pub Nos. US20110020388 and US20110027217, each of which is herein incorporated by reference in their entireties).
  • the synthetic nanocarriers may be formulated for controlled and/or sustained release of the polynucleotides, primary constructs and/or mmRNA described herein.
  • the synthetic nanocarriers for sustained release may be formulated by methods known in the art, described herein and/or as described in International Pub No. WO2010138192 and US Pub No. 20100303850, each of which is herein incorporated by reference in their entirety.
  • the synthetic nanocarrier may be formulated for use as a vaccine.
  • the synthetic nanocarrier may encapsulate at least one polynucleotide, primary construct and/or mmRNA which encode at least one antigen.
  • the synthetic nanocarrier may include at least one antigen and an excipient for a vaccine dosage form (see International Pub No. WO2011150264 and US Pub No. US20110293723, each of which is herein incorporated by reference in their entirety).
  • a vaccine dosage form may include at least two synthetic nanocarriers with the same or different antigens and an excipient (see International Pub No. WO2011150249 and US Pub No.
  • the vaccine dosage form may be selected by methods described herein, known in the art and/or described in International Pub No. WO2011150258 and US Pub No. US20120027806, each of which is herein incorporated by reference in their entirety).
  • the synthetic nanocarrier may comprise at least one polynucleotide, primary construct and/or mmRNA which encodes at least one adjuvant.
  • the adjuvant may comprise dimethyldioctadecylammonium-bromide, dimethyldioctadecylammonium-chloride, dimethyldioctadecylammonium-phosphate or dimethyldioctadecylammonium-acetate (DDA) and an apolar fraction or part of said apolar fraction of a total lipid extract of a mycobacterium (See e.g, U.S. Pat. No. 8,241,610; herein incorporated by reference in its entirety).
  • the synthetic nanocarrier may comprise at least one polynucleotide, primary construct and/or mmRNA and an adjuvant.
  • the synthetic nanocarrier comprising and adjuvant may be formulated by the methods described in International Pub No. WO2011150240 and US Pub No. US20110293700, each of which is herein incorporated by reference in its entirety.
  • the synthetic nanocarrier may encapsulate at least one polynucleotide, primary construct and/or mmRNA which encodes a peptide, fragment or region from a virus.
  • the synthetic nanocarrier may include, but is not limited to, the nanocarriers described in International Pub No. WO2012024621, WO201202629, WO2012024632 and US Pub No. US20120064110, US20120058153 and US20120058154, each of which is herein incorporated by reference in their entirety.
  • the synthetic nanocarrier may be coupled to a polynucleotide, primary construct or mmRNA which may be able to trigger a humoral and/or cytotoxic T lymphocyte (CTL) response (See e.g., International Publication No. WO2013019669, herein incorporated by reference in its entirety).
  • CTL cytotoxic T lymphocyte
  • the nanoparticle may be optimized for oral administration.
  • the nanoparticle may comprise at least one cationic biopolymer such as, but not limited to, chitosan or a derivative thereof.
  • the nanoparticle may be formulated by the methods described in U.S. Pub. No. 20120282343; herein incorporated by reference in its entirety.
  • the polynucleotide, primary construct, and mmRNA of the invention can be formulated using natural and/or synthetic polymers.
  • Non-limiting examples of polymers which may be used for delivery include, but are not limited to, DYNAMIC POLYCONJUGATE® (Arrowhead Reasearch Corp., Pasadena, Calif.) formulations from MIRUS® Bio (Madison, Wis.) and Roche Madison (Madison, Wis.), PHASERXTM polymer formulations such as, without limitation, SMARTT POLYMER TECHNOLOGYTM (PHASERX®, Seattle, Wash.), DMRI/DOPE, poloxamer, VAXFECTIN® adjuvant from Vical (San Diego, Calif.), chitosan, cyclodextrin from Calando Pharmaceuticals (Pasadena, Calif.), dendrimers and poly(lactic-co-glycolic acid) (PLGA) polymers.
  • DYNAMIC POLYCONJUGATE®
  • RONDELTM RNAi/Oligonucleotide Nanoparticle Delivery
  • PHASERX® pH responsive co-block polymers
  • chitosan formulation includes a core of positively charged chitosan and an outer portion of negatively charged substrate (U.S. Pub. No. 20120258176; herein incorporated by reference in its entirety).
  • Chitosan includes, but is not limited to N-trimethyl chitosan, mono-N-carboxymethyl chitosan (MCC), N-palmitoyl chitosan (NPCS), EDTA-chitosan, low molecular weight chitosan, chitosan derivatives, or combinations thereof
  • the polymers used in the present invention have undergone processing to reduce and/or inhibit the attachement of unwanted substances such as, but not limited to, bacteria, to the surface of the polymer.
  • the polymer may be processed by methods known and/or described in the art and/or described in International Pub. No. WO2012150467, herein incorporated by reference in its entirety.
  • PLGA formulations include, but are not limited to, PLGA injectable depots (e.g., ELIGARD® which is formed by dissolving PLGA in 66% N-methyl-2-pyrrolidone (NMP) and the remainder being aqueous solvent and leuprolide. Once injected, the PLGA and leuprolide peptide precipitates into the subcutaneous space).
  • PLGA injectable depots e.g., ELIGARD® which is formed by dissolving PLGA in 66% N-methyl-2-pyrrolidone (NMP) and the remainder being aqueous solvent and leuprolide. Once injected, the PLGA and leuprolide peptide precipitates into the subcutaneous space).
  • NMP N-methyl-2-pyrrolidone
  • the polymer complex On binding to the hepatocyte and entry into the endosome, the polymer complex disassembles in the low-pH environment, with the polymer exposing its positive charge, leading to endosomal escape and cytoplasmic release of the siRNA from the polymer.
  • the polymer Through replacement of the N-acetylgalactosamine group with a mannose group, it was shown one could alter targeting from asialoglycoprotein receptor-expressing hepatocytes to sinusoidal endothelium and Kupffer cells.
  • Another polymer approach involves using transferrin-targeted cyclodextrin-containing polycation nanoparticles.
  • the polymer formulation can permit the sustained or delayed release of polynucleotide, primary construct, or mmRNA (e.g., following intramuscular or subcutaneous injection).
  • the altered release profile for the polynucleotide, primary construct, or mmRNA can result in, for example, translation of an encoded protein over an extended period of time.
  • the polymer formulation may also be used to increase the stability of the polynucleotide, primary construct, or mmRNA.
  • Biodegradable polymers have been previously used to protect nucleic acids other than mmRNA from degradation and been shown to result in sustained release of payloads in vivo (Rozema et al., Proc Natl Acad Sci USA.
  • the pharmaceutical compositions may be sustained release formulations.
  • the sustained release formulations may be for subcutaneous delivery.
  • Sustained release formulations may include, but are not limited to, PLGA microspheres, ethylene vinyl acetate (EVAc), poloxamer, GELSITE® (Nanotherapeutics, Inc. Alachua, Fla.), HYLENEX® (Halozyme Therapeutics, San Diego Calif.), surgical sealants such as fibrinogen polymers (Ethicon Inc. Cornelia, Ga.), TISSELL® (Baxter International, Inc Deerfield, Ill.), PEG-based sealants, and COSEAL® (Baxter International, Inc Deerfield, Ill.).
  • modified mRNA may be formulated in PLGA microspheres by preparing the PLGA microspheres with tunable release rates (e.g., days and weeks) and encapsulating the modified mRNA in the PLGA microspheres while maintaining the integrity of the modified mRNA during the encapsulation process.
  • EVAc are non-biodegradeable, biocompatible polymers which are used extensively in pre-clinical sustained release implant applications (e.g., extended release products Ocusert a pilocarpine ophthalmic insert for glaucoma or progestasert a sustained release progesterone intrauterine deivce; transdermal delivery systems Testoderm, Duragesic and Selegiline; catheters).
  • Poloxamer F-407 NF is a hydrophilic, non-ionic surfactant triblock copolymer of polyoxyethylene-polyoxypropylene-polyoxyethylene having a low viscosity at temperatures less than 5° C. and forms a solid gel at temperatures greater than 15° C.
  • PEG-based surgical sealants comprise two synthetic PEG components mixed in a delivery device which can be prepared in one minute, seals in 3 minutes and is reabsorbed within 30 days.
  • GELSITE® and natural polymers are capable of in-situ gelation at the site of administration. They have been shown to interact with protein and peptide therapeutic candidates through ionic ineraction to provide a stabilizing effect.
  • Polymer formulations can also be selectively targeted through expression of different ligands as exemplified by, but not limited by, folate, transferrin, and N-acetylgalactosamine (GalNAc) (Benoit et al., Biomacromolecules. 2011 12:2708-2714; Rozema et al., Proc Natl Acad Sci USA. 2007 104:12982-12887; Davis, Mol. Pharm. 2009 6:659-668; Davis, Nature 2010 464:1067-1070; each of which is herein incorporated by reference in its entirety).
  • GalNAc N-acetylgalactosamine
  • the modified nucleic acid, and mmRNA of the invention may be formulated with or in a polymeric compound.
  • the polymer may include at least one polymer such as, but not limited to, polyethenes, polyethylene glycol (PEG), poly(1-lysine)(PLL), PEG grafted to PLL, cationic lipopolymer, biodegradable cationic lipopolymer, polyethyleneimine (PEI), cross-linked branched poly(alkylene imines), a polyamine derivative, a modified poloxamer, a biodegradable polymer, elastic biodegradable polymer, biodegradable block copolymer, biodegradable random copolymer, biodegradable polyester copolymer, biodegradable polyester block copolymer, biodegradable polyester block random copolymer, multiblock copolymers, linear biodegradable copolymer, poly[ ⁇ -(4-aminobutyl)-L-glycolic acid) (PAGA), bio
  • the modified nucleic acid or mmRNA of the invention may be formulated with the polymeric compound of PEG grafted with PLL as described in U.S. Pat. No. 6,177,274; herein incorporated by reference in its entirety.
  • the formulation may be used for transfecting cells in vitro or for in vivo delivery of the modified nucleic acid and mmRNA.
  • the modified nucleic acid and mmRNA may be suspended in a solution or medium with a cationic polymer, in a dry pharmaceutical composition or in a solution that is capable of being dried as described in U.S. Pub. Nos. 20090042829 and 20090042825; each of which are herein incorporated by reference in their entireties.
  • the polynucleotides, primary constructs or mmRNA of the invention may be formulated with a PLGA-PEG block copolymer (see US Pub. No. US20120004293 and U.S. Pat. No. 8,236,330, herein incorporated by reference in their entireties) or PLGA-PEG-PLGA block copolymers (See U.S. Pat. No. 6,004,573, herein incorporated by reference in its entirety).
  • the polynucleotides, primary constructs or mmRNA of the invention may be formulated with a diblock copolymer of PEG and PLA or PEG and PLGA (see U.S. Pat. No. 8,246,968, herein incorporated by reference in its entirety).
  • a polyamine derivative may be used to deliver nucleic acids or to treat and/or prevent a disease or to be included in an implantable or injectable device (U.S. Pub. No. 20100260817 herein incorporated by reference in its entirety).
  • a pharmaceutical composition may include the modified nucleic acids and mmRNA and the polyamine derivative described in U.S. Pub. No. 20100260817 (the contents of which are incorporated herein by reference in its entirety.
  • polynucleotides, primary constructs and mmRNA of the present invention may be delivered using a polyaminde polymer such as, but not limited to, a polymer comprising a 1,3-dipolar addition polymer prepared by combining a carbohydrate diazide monomer with a dilkyne unite comprising oligoamines (U.S. Pat. No. 8,236,280; herein incorporated by reference in its entirety).
  • a polyaminde polymer such as, but not limited to, a polymer comprising a 1,3-dipolar addition polymer prepared by combining a carbohydrate diazide monomer with a dilkyne unite comprising oligoamines (U.S. Pat. No. 8,236,280; herein incorporated by reference in its entirety).
  • the polynucleotides, primary constructs or mmRNA of the present invention may be formulated with at least one polymer and/or derivatives thereof described in International Publication Nos. WO2011115862, WO2012082574 and WO2012068187 and U.S. Pub. No. 20120283427, each of which are herein incorporated by reference in their entireties.
  • the modified nucleic acid or mmRNA of the present invention may be formulated with a polymer of formula Z as described in WO2011115862, herein incorporated by reference in its entirety.
  • the modified nucleic acid or mmRNA may be formulated with a polymer of formula Z, Z′ or Z′′ as described in International Pub. Nos.
  • WO2012082574 or WO2012068187 and U.S. Pub. No. 2012028342 each of which are herein incorporated by reference in their entireties.
  • the polymers formulated with the modified RNA of the present invention may be synthesized by the methods described in International Pub. Nos. WO2012082574 or WO2012068187, each of which are herein incorporated by reference in their entireties.
  • the polynucleotides, primary constructs or mmRNA of the invention may be formulated with at least one acrylic polymer.
  • Acrylic polymers include but are not limited to, acrylic acid, methacrylic acid, acrylic acid and methacrylic acid copolymers, methyl methacrylate copolymers, ethoxyethyl methacrylates, cyanoethyl methacrylate, amino alkyl methacrylate copolymer, poly(acrylic acid), poly(methacrylic acid), polycyanoacrylates and combinations thereof
  • Formulations of polynucleotides, primary constructs or mmRNA of the invention may include at least one amine-containing polymer such as, but not limited to polylysine, polyethylene imine, poly(amidoamine) dendrimers or combinations thereof
  • the modified nucleic acid or mmRNA of the invention may be formulated in a pharmaceutical compound including a poly(alkylene imine), a biodegradable cationic lipopolymer, a biodegradable block copolymer, a biodegradable polymer, or a biodegradable random copolymer, a biodegradable polyester block copolymer, a biodegradable polyester polymer, a biodegradable polyester random copolymer, a linear biodegradable copolymer, PAGA, a biodegradable cross-linked cationic multi-block copolymer or combinations thereof.
  • the biodegradable cationic lipopolymer may be made by methods known in the art and/or described in U.S. Pat.
  • the poly(alkylene imine) may be made using methods known in the art and/or as described in U.S. Pub. No. 20100004315, herein incorporated by reference in its entirety.
  • the biodegradabale polymer, biodegradable block copolymer, the biodegradable random copolymer, biodegradable polyester block copolymer, biodegradable polyester polymer, or biodegradable polyester random copolymer may be made using methods known in the art and/or as described in U.S. Pat. Nos.
  • the linear biodegradable copolymer may be made using methods known in the art and/or as described in U.S. Pat. No. 6,652,886.
  • the PAGA polymer may be made using methods known in the art and/or as described in U.S. Pat. No. 6,217,912 herein incorporated by reference in its entirety.
  • the PAGA polymer may be copolymerized to form a copolymer or block copolymer with polymers such as but not limited to, poly-L-lysine, polyargine, polyornithine, histones, avidin, protamines, polylactides and poly(lactide-co-glycolides).
  • the biodegradable cross-linked cationic multi-block copolymers may be made my methods known in the art and/or as described in U.S. Pat. No. 8,057,821 or U.S. Pub. No. 2012009145 each of which are herein incorporated by reference in their entireties.
  • the multi-block copolymers may be synthesized using linear polyethyleneimine (LPEI) blocks which have distinct patterns as compared to branched polyethyleneimines.
  • LPEI linear polyethyleneimine
  • the composition or pharmaceutical composition may be made by the methods known in the art, described herein, or as described in U.S. Pub. No. 20100004315 or U.S. Pat. Nos. 6,267,987 and 6,217,912 each of which are herein incorporated by reference in their entireties.
  • the polynucleotides, primary constructs, and mmRNA of the invention may be formulated with at least one degradable polyester which may contain polycationic side chains.
  • Degradable polyesters include, but are not limited to, poly(serine ester), poly(L-lactide-co-L-lysine), poly(4-hydroxy-L-proline ester), and combinations thereof.
  • the degradable polyesters may include a PEG conjugation to form a PEGylated polymer.
  • the polynucleotides, primary construct, mmRNA of the invention may be formulated with at least one crosslinkable polyester.
  • Crosslinkable polyesters include those known in the art and described in US Pub. No. 20120269761, herein incorporated by reference in its entirety.
  • the polymers described herein may be conjugated to a lipid-terminating PEG.
  • PLGA may be conjugated to a lipid-terminating PEG forming PLGA-DSPE-PEG.
  • PEG conjugates for use with the present invention are described in International Publication No. WO2008103276, herein incorporated by reference in its entirety.
  • the polymers may be conjugated using a ligand conjugate such as, but not limited to, the conjugates described in U.S. Pat. No. 8,273,363, herein incorporated by reference in its entirety.
  • the modified RNA described herein may be conjugated with another compound.
  • conjugates are described in U.S. Pat. Nos. 7,964,578 and 7,833,992, each of which are herein incorporated by reference in their entireties.
  • modified RNA of the present invention may be conjugated with conjugates of formula I-122 as described in U.S. Pat. Nos. 7,964,578 and 7,833,992, each of which are herein incorporated by reference in their entireties.
  • the polynucleotides, primary constructs and/or mmRNA described herein may be conjugated with a metal such as, but not limited to, gold. (See e.g., Giljohann et al. Journ. Amer. Chem. Soc.
  • polynucleotides, primary constructs and/or mmRNA described herein may be conjugated and/or encapsulated in gold-nanoparticles.
  • a gene delivery composition may include a nucleotide sequence and a poloxamer.
  • the modified nucleic acid and mmRNA of the present inveition may be used in a gene delivery composition with the poloxamer described in U.S. Pub. No. 20100004313.
  • the polymer formulation of the present invention may be stabilized by contacting the polymer formulation, which may include a cationic carrier, with a cationic lipopolymer which may be covalently linked to cholesterol and polyethylene glycol groups.
  • the polymer formulation may be contacted with a cationic lipopolymer using the methods described in U.S. Pub. No. 20090042829 herein incorporated by reference in its entirety.
  • the cationic carrier may include, but is not limited to, polyethylenimine, poly(trimethylenimine), poly(tetramethylenimine), polypropylenimine, aminoglycoside-polyamine, dideoxy-diamino-b-cyclodextrin, spermine, spermidine, poly(2-dimethylamino)ethyl methacrylate, poly(lysine), poly(histidine), poly(arginine), cationized gelatin, dendrimers, chitosan, 1,2-Dioleoyl-3-Trimethylammonium-Propane(DOTAP), N-[1-(2,3-dioleoyloxy)propyl]-N,N,N-trimethylammonium chloride (DOTMA), 1-[2-(oleoyloxy)ethyl]-2-oleyl-3-(2-hydroxyethyl)imidazolinium chloride (DOTIM), 2,3-dioleyloxy-
  • the polynucleotides, primary constructs and/or mmRNA of the invention may be formulated in a polyplex of one or more polymers (U.S. Pub. No. 20120237565 and 20120270927; each of which is herein incorporated by reference in its entirety).
  • the polyplex comprises two or more cationic polymers.
  • the catioinic polymer may comprise a poly(ethylene imine) (PEI) such as linear PEI.
  • the polynucleotide, primary construct, and mmRNA of the invention can also be formulated as a nanoparticle using a combination of polymers, lipids, and/or other biodegradable agents, such as, but not limited to, calcium phosphate.
  • Components may be combined in a core-shell, hybrid, and/or layer-by-layer architecture, to allow for fine-tuning of the nanoparticle so to delivery of the polynucleotide, primary construct and mmRNA may be enhanced (Wang et al., Nat Mater. 2006 5:791-796; Fuller et al., Biomaterials. 2008 29:1526-1532; DeKoker et al., Adv Drug Deliv Rev.
  • the nanoparticle may comprise a plurality of polymers such as, but not limited to hydrophilic-hydrophobic polymers (e.g., PEG-PLGA), hydrophobic polymers (e.g., PEG) and/or hydrophilic polymers (International Pub. No. WO20120225129; herein incorporated by reference in its entirety).
  • hydrophilic-hydrophobic polymers e.g., PEG-PLGA
  • hydrophobic polymers e.g., PEG
  • hydrophilic polymers International Pub. No. WO20120225129
  • Biodegradable calcium phosphate nanoparticles in combination with lipids and/or polymers have been shown to deliver polynucleotides, primary constructs and mmRNA in vivo.
  • a lipid coated calcium phosphate nanoparticle which may also contain a targeting ligand such as anisamide, may be used to deliver the polynucleotide, primary construct and mmRNA of the present invention.
  • a targeting ligand such as anisamide
  • calcium phosphate with a PEG-polyanion block copolymer may be used to delivery polynucleotides, primary constructs and mmRNA (Kazikawa et al., J Contr Rel. 2004 97:345-356; Kazikawa et al., J Contr Rel. 2006 111:368-370; herein incorporated by reference in its entirety).
  • a PEG-charge-conversional polymer (Pitella et al., Biomaterials. 2011 32:3106-3114) may be used to form a nanoparticle to deliver the polynucleotides, primary constructs and mmRNA of the present invention.
  • the PEG-charge-conversional polymer may improve upon the PEG-polyanion block copolymers by being cleaved into a polycation at acidic pH, thus enhancing endosomal escape.
  • core-shell nanoparticles have additionally focused on a high-throughput approach to synthesize cationic cross-linked nanogel cores and various shells (Siegwart et al., Proc Natl Acad Sci USA. 2011 108:12996-13001).
  • the complexation, delivery, and internalization of the polymeric nanoparticles can be precisely controlled by altering the chemical composition in both the core and shell components of the nanoparticle.
  • the core-shell nanoparticles may efficiently deliver siRNA to mouse hepatocytes after they covalently attach cholesterol to the nanoparticle.
  • a hollow lipid core comprising a middle PLGA layer and an outer neutral lipid layer containg PEG may be used to delivery of the polynucleotide, primary construct and mmRNA of the present invention.
  • a luciferease-expressing tumor it was determined that the lipid-polymer-lipid hybrid nanoparticle significantly suppressed luciferase expression, as compared to a conventional lipoplex (Shi et al, Angew Chem Int Ed. 2011 50:7027-7031; herein incorporated by reference in its entirety).
  • the lipid nanoparticles may comprise a core of the modified nucleic acid molecules disclosed herein and a polymer shell.
  • the polymer shell may be any of the polymers described herein and are known in the art.
  • the polymer shell may be used to protect the modified nucleic acids in the core.
  • Core-shell nanoparticles for use with the modified nucleic acid molecules of the present invention are described and may be formed by the methods described in U.S. Pat. No. 8,313,777 herein incorporated by reference in its entirety.
  • the core-shell nanoparticles may comprise a core of the modified nucleic acid molecules disclosed herein and a polymer shell.
  • the polymer shell may be any of the polymers described herein and are known in the art.
  • the polymer shell may be used to protect the modified nucleic acid molecules in the core.
  • the core-shell nanoparticle may be used to treat an eye disease or disorder (See e.g. US Publication No. 20120321719, herein incorporated by reference in its entirety).
  • the polymer used with the formulations described herein may be a modified polymer (such as, but not limited to, a modified polyacetal) as described in International Publication No. WO2011120053, herein incorporated by reference in its entirety.
  • the polynucleotide, primary construct, and mmRNA of the invention can be formulated with peptides and/or proteins in order to increase transfection of cells by the polynucleotide, primary construct, or mmRNA.
  • peptides such as, but not limited to, cell penetrating peptides and proteins and peptides that enable intracellular delivery may be used to deliver pharmaceutical formulations.
  • a non-limiting example of a cell penetrating peptide which may be used with the pharmaceutical formulations of the present invention includes a cell-penetrating peptide sequence attached to polycations that facilitates delivery to the intracellular space, e.g., HIV-derived TAT peptide, penetratins, transportans, or hCT derived cell-penetrating peptides (see, e.g., Caron et al., Mol. Ther. 3(3):310-8 (2001); Langel, Cell-Penetrating Peptides: Processes and Applications (CRC Press, Boca Raton Fla., 2002); El-Andaloussi et al., Curr. Pharm. Des.
  • compositions can also be formulated to include a cell penetrating agent, e.g., liposomes, which enhance delivery of the compositions to the intracellular space.
  • a cell penetrating agent e.g., liposomes
  • Polynucleotides, primary constructs, and mmRNA of the invention may be complexed to peptides and/or proteins such as, but not limited to, peptides and/or proteins from Aileron Therapeutics (Cambridge, Mass.) and Permeon Biologics (Cambridge, Mass.) in order to enable intracellular delivery (Cronican et al., ACS Chem. Biol. 2010 5:747-752; McNaughton et al., Proc. Natl. Acad. Sci. USA 2009 106:6111-6116; Sawyer, Chem Biol Drug Des. 2009 73:3-6; Verdine and Hilinski, Methods Enzymol. 2012; 503:3-33; all of which are herein incorporated by reference in its entirety).
  • Aileron Therapeutics Cambridge, Mass.
  • Permeon Biologics Cambridge, Mass.
  • the cell-penetrating polypeptide may comprise a first domain and a second domain.
  • the first domain may comprise a supercharged polypeptide.
  • the second domain may comprise a protein-binding partner.
  • protein-binding partner includes, but are not limited to, antibodies and functional fragments thereof, scaffold proteins, or peptides.
  • the cell-penetrating polypeptide may further comprise an intracellular binding partner for the protein-binding partner.
  • the cell-penetrating polypeptide may be capable of being secreted from a cell where the polynucleotide, primary construct, or mmRNA may be introduced.
  • Formulations of the including peptides or proteins may be used to increase cell transfection by the polynucleotide, primary construct, or mmRNA, alter the biodistribution of the polynucleotide, primary construct, or mmRNA (e.g., by targeting specific tissues or cell types), and/or increase the translation of encoded protein.
  • a polynucleotide, primary construct, or mmRNA alter the biodistribution of the polynucleotide, primary construct, or mmRNA (e.g., by targeting specific tissues or cell types), and/or increase the translation of encoded protein.
  • the polynucleotide, primary construct, and mmRNA of the invention can be transfected ex vivo into cells, which are subsequently transplanted into a subject.
  • the pharmaceutical compositions may include red blood cells to deliver modified RNA to liver and myeloid cells, virosomes to deliver modified RNA in virus-like particles (VLPs), and electroporated cells such as, but not limited to, from MAXCYTE® (Gaithersburg, Md.) and from ERYTECH® (Lyon, France) to deliver modified RNA. Examples of use of red blood cells, viral particles and electroporated cells to deliver payloads other than mmRNA have been documented (Godfrin et al., Expert Opin Biol Ther.
  • polynucleotides, primary constructs and mmRNA may be delivered in synthetic VLPs synthesized by the methods described in International Pub No. WO2011085231 and US Pub No. 20110171248, each of which are herein incorporated by reference in their entireties.
  • Cell-based formulations of the polynucleotide, primary construct, and mmRNA of the invention may be used to ensure cell transfection (e.g., in the cellular carrier), alter the biodistribution of the polynucleotide, primary construct, or mmRNA (e.g., by targeting the cell carrier to specific tissues or cell types), and/or increase the translation of encoded protein.
  • nucleic acid into a cell
  • non-viral mediated techniques include, but are not limited to, electroporation, calcium phosphate mediated transfer, nucleofection, sonoporation, heat shock, magnetofection, liposome mediated transfer, microinjection, microprojectile mediated transfer (nanoparticles), cationic polymer mediated transfer (DEAE-dextran, polyethylenimine, polyethylene glycol (PEG) and the like) or cell fusion.
  • Sonoporation or cellular sonication
  • sound e.g., ultrasonic frequencies
  • Sonoporation methods are known to those in the art and are used to deliver nucleic acids in vivo (Yoon and Park, Expert Opin Drug Deliv. 2010 7:321-330; Postema and Gilja, Curr Pharm Biotechnol. 2007 8:355-361; Newman and Bettinger, Gene Ther. 2007 14:465-475; all herein incorporated by reference in their entirety).
  • Electroporation techniques are also well known in the art and are used to deliver nucleic acids in vivo and clinically (Andre et al., Curr Gene Ther. 2010 10:267-280; Chiarella et al., Curr Gene Ther. 2010 10:281-286; Hojman, Curr Gene Ther. 2010 10:128-138; all herein incorporated by reference in their entirety).
  • polynucleotides, primary constructs or mmRNA may be delivered by electroporation as described in Example 8.
  • the intramuscular or subcutaneous localized injection of polynucleotide, primary construct, or mmRNA of the invention can include hyaluronidase, which catalyzes the hydrolysis of hyaluronan.
  • hyaluronidase catalyzes the hydrolysis of hyaluronan.
  • hyaluronidase By catalyzing the hydrolysis of hyaluronan, a constituent of the interstitial barrier, hyaluronidase lowers the viscosity of hyaluronan, thereby increasing tissue permeability (Frost, Expert Opin. Drug Deliv. (2007) 4:427-440; herein incorporated by reference in its entirety). It is useful to speed their dispersion and systemic distribution of encoded proteins produced by transfected cells.
  • the hyaluronidase can be used to increase the number of cells exposed to a polynucleotide, primary construct, or mmRNA of the invention administered intramus
  • the polynucleotide, primary construct or mmRNA of the invention may be encapsulated within and/or absorbed to a nanoparticle mimic.
  • a nanoparticle mimic can mimic the delivery function organisms or particles such as, but not limited to, pathogens, viruses, bacteria, fungus, parasites, prions and cells.
  • the polynucleotide, primary construct or mmRNA of the invention may be encapsulated in a non-viron particle which can mimic the delivery function of a virus (see International Pub. No. WO2012006376 herein incorporated by reference in its entirety).
  • the polynucleotides, primary constructs or mmRNA of the invention can be attached or otherwise bound to at least one nanotube such as, but not limited to, rosette nanotubes, rosette nanotubes having twin bases with a linker, carbon nanotubes and/or single-walled carbon nanotubes,
  • the polynucleotides, primary constructs or mmRNA may be bound to the nanotubes through forces such as, but not limited to, steric, ionic, covalent and/or other forces.
  • the nanotube can release one or more polynucleotides, primary constructs or mmRNA into cells.
  • the size and/or the surface structure of at least one nanotube may be altered so as to govern the interaction of the nanotubes within the body and/or to attach or bind to the polynucleotides, primary constructs or mmRNA disclosed herein.
  • the building block and/or the functional groups attached to the building block of the at least one nanotube may be altered to adjust the dimensions and/or properties of the nanotube.
  • the length of the nanotubes may be altered to hinder the nanotubes from passing through the holes in the walls of normal blood vessels but still small enough to pass through the larger holes in the blood vessels of tumor tissue.
  • At least one nanotube may also be coated with delivery enhancing compounds including polymers, such as, but not limited to, polyethylene glycol.
  • delivery enhancing compounds including polymers, such as, but not limited to, polyethylene glycol.
  • at least one nanotube and/or the polynucleotides, primary constructs or mmRNA may be mixed with pharmaceutically acceptable excipients and/or delivery vehicles.
  • the polynucleotides, primary constructs or mmRNA are attached and/or otherwise bound to at least one rosette nanotube.
  • the rosette nanotubes may be formed by a process known in the art and/or by the process described in International Publication No. WO2012094304, herein incorporated by reference in its entirety.
  • At least one polynucleotide, primary construct and/or mmRNA may be attached and/or otherwise bound to at least one rosette nanotube by a process as described in International Publication No.
  • rosette nanotubes or modules forming rosette nanotubes are mixed in aqueous media with at least one polynucleotide, primary construct and/or mmRNA under conditions which may cause at least one polynucleotide, primary construct or mmRNA to attach or otherwise bind to the rosette nanotubes.
  • the polynucleotides, primary constructs or mmRNA may be attached to and/or otherwise bound to at least one carbon nanotube.
  • the polynucleotides, primary constructs or mmRNA may be bound to a linking agent and the linked agent may be bound to the carbon nanotube (See e.g., U.S. Pat. No. 8,246,995; herein incorporated by reference in its entirety).
  • the carbon nanotube may be a single-walled nanotube (See e.g., U.S. Pat. No. 8,246,995; herein incorporated by reference in its entirety).

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US13/791,910 US20140010861A1 (en) 2012-04-02 2013-03-09 Modified polynucleotides for the production of proteins associated with human disease
US14/105,210 US20150044277A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding caspase 3
US14/105,224 US9220755B2 (en) 2012-04-02 2013-12-13 Modified polynucleotides for the production of proteins associated with blood and lymphatic disorders
US14/105,214 US20140171485A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding cd28 molecule
US14/105,221 US20140255468A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding programmed cell death 1
US14/105,217 US20140255467A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding cytotoxic t-lymphocyte-associated protein 4
US14/171,226 US9061059B2 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating protein deficiency
US14/171,235 US20140206755A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating arylsulfatase a protein deficiency
US14/171,249 US9089604B2 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating galactosylceramidase protein deficiency
US14/171,242 US20140200264A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating carboxypeptidase n, polypeptide 1 protein deficiency
US14/508,631 US20150050354A1 (en) 2012-04-02 2014-10-07 Modified polynucleotides for the treatment of otic diseases and conditions
US15/060,707 US9782462B2 (en) 2012-04-02 2016-03-04 Modified polynucleotides for the production of proteins associated with human disease
US15/440,523 US20180086807A1 (en) 2012-04-02 2017-02-23 Modified polynucleotides for the production of proteins associated with human disease
US16/665,985 US20210115101A1 (en) 2012-04-02 2019-10-28 Modified polynucleotides for the production of proteins associated with human disease
US18/634,220 US20240327476A1 (en) 2012-04-02 2024-04-12 Modified polynucleotides for the production of proteins associated with human disease

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US201261618935P 2012-04-02 2012-04-02
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US14/105,217 Continuation US20140255467A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding cytotoxic t-lymphocyte-associated protein 4
US14/105,210 Continuation US20150044277A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding caspase 3
US14/105,214 Continuation US20140171485A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding cd28 molecule
US14/105,221 Continuation US20140255468A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding programmed cell death 1
US14/105,224 Continuation US9220755B2 (en) 2012-04-02 2013-12-13 Modified polynucleotides for the production of proteins associated with blood and lymphatic disorders
US14/171,249 Continuation US9089604B2 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating galactosylceramidase protein deficiency
US14/171,235 Continuation US20140206755A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating arylsulfatase a protein deficiency
US14/171,226 Continuation US9061059B2 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating protein deficiency
US14/171,242 Continuation US20140200264A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating carboxypeptidase n, polypeptide 1 protein deficiency
US14/508,631 Continuation-In-Part US20150050354A1 (en) 2012-04-02 2014-10-07 Modified polynucleotides for the treatment of otic diseases and conditions
US15/060,707 Continuation US9782462B2 (en) 2012-04-02 2016-03-04 Modified polynucleotides for the production of proteins associated with human disease

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US13/791,921 Active 2033-06-01 US9192651B2 (en) 2012-04-02 2013-03-09 Modified polynucleotides for the production of secreted proteins
US13/791,910 Abandoned US20140010861A1 (en) 2012-04-02 2013-03-09 Modified polynucleotides for the production of proteins associated with human disease
US13/791,922 Active 2033-05-02 US8999380B2 (en) 2012-04-02 2013-03-09 Modified polynucleotides for the production of biologics and proteins associated with human disease
US14/103,188 Active US9220792B2 (en) 2012-04-02 2013-12-11 Modified polynucleotides encoding aquaporin-5
US14/104,591 Active US9233141B2 (en) 2012-04-02 2013-12-12 Modified polynucleotides for the production of proteins associated with blood and lymphatic disorders
US14/104,568 Active US9095552B2 (en) 2012-04-02 2013-12-12 Modified polynucleotides encoding copper metabolism (MURR1) domain containing 1
US14/104,585 Abandoned US20140193482A1 (en) 2012-04-02 2013-12-12 Modified polynucleotides encoding v-myc avian myelocytomatosis viral oncogene homolog
US14/104,556 Active US9114113B2 (en) 2012-04-02 2013-12-12 Modified polynucleotides encoding citeD4
US14/105,208 Active 2034-05-10 US9675668B2 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding hepatitis A virus cellular receptor 2
US14/105,221 Abandoned US20140255468A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding programmed cell death 1
US14/105,210 Abandoned US20150044277A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding caspase 3
US14/105,214 Abandoned US20140171485A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding cd28 molecule
US14/105,217 Abandoned US20140255467A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding cytotoxic t-lymphocyte-associated protein 4
US14/106,957 Active US9050297B2 (en) 2012-04-02 2013-12-16 Modified polynucleotides encoding aryl hydrocarbon receptor nuclear translocator
US14/106,988 Active US9301993B2 (en) 2012-04-02 2013-12-16 Modified polynucleotides encoding apoptosis inducing factor 1
US14/107,029 Abandoned US20140113959A1 (en) 2012-04-02 2013-12-16 Modified polynucleotides encoding caspase 6
US14/107,079 Active US9149506B2 (en) 2012-04-02 2013-12-16 Modified polynucleotides encoding septin-4
US14/171,226 Active US9061059B2 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating protein deficiency
US14/170,910 Abandoned US20140155474A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating cystic fibrosis
US14/170,744 Abandoned US20140148502A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating protein deficiency
US14/171,249 Active US9089604B2 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating galactosylceramidase protein deficiency
US14/170,751 Abandoned US20140200263A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating galactosidase, alpha protein deficiency
US14/170,903 Abandoned US20140155473A1 (en) 2012-04-02 2014-02-03 Modified glucosidase, beta, acid polynucleotides for treating protein deficiency
US14/171,235 Abandoned US20140206755A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating arylsulfatase a protein deficiency
US14/170,897 Abandoned US20140155472A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating argininosuccinate synthase 1 protein deficiency
US14/171,242 Abandoned US20140200264A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating carboxypeptidase n, polypeptide 1 protein deficiency
US14/170,747 Abandoned US20140194494A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating protein deficiency
US14/170,914 Abandoned US20140155475A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating lipase a, lysosomal acid, cholesterol esterase protein deficiency
US14/171,119 Abandoned US20140179771A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating dolichyl-phosphate (udp-n-acetylglucosamine) n-acetylglucosaminephosphotransferase 1 (glcnac-1-p transferase) protein deficiency
US14/878,400 Expired - Fee Related US9814760B2 (en) 2012-04-02 2015-10-08 Modified polynucleotides for the production of biologics and proteins associated with human disease
US15/403,517 Active US10493167B2 (en) 2012-04-02 2017-01-11 In vivo production of proteins
US15/425,645 Active US10463751B2 (en) 2012-04-02 2017-02-06 Modified polynucleotides for the production of cytoplasmic and cytoskeletal proteins
US15/789,138 Abandoned US20190240351A1 (en) 2012-04-02 2017-10-20 Modified polynucleotides for the production of proteins
US15/790,246 Active US10772975B2 (en) 2012-04-02 2017-10-23 Modified Polynucleotides for the production of biologics and proteins associated with human disease
US16/442,168 Active US10583203B2 (en) 2012-04-02 2019-06-14 In vivo production of proteins
US16/577,734 Active 2034-06-10 US11564998B2 (en) 2012-04-02 2019-09-20 Modified polynucleotides for the production of cytoplasmic and cytoskeletal proteins
US16/811,648 Abandoned US20210077634A1 (en) 2012-04-02 2020-03-06 In vivo production of proteins
US17/020,522 Abandoned US20210299278A1 (en) 2012-04-02 2020-09-14 Modified polynucleotides for the production of biologics and proteins associated with human disease
US18/161,598 Pending US20240131193A1 (en) 2012-04-02 2023-01-30 Modified polynucleotides for the production of cytoplasmic and cytoskeletal proteins
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US14/103,188 Active US9220792B2 (en) 2012-04-02 2013-12-11 Modified polynucleotides encoding aquaporin-5
US14/104,591 Active US9233141B2 (en) 2012-04-02 2013-12-12 Modified polynucleotides for the production of proteins associated with blood and lymphatic disorders
US14/104,568 Active US9095552B2 (en) 2012-04-02 2013-12-12 Modified polynucleotides encoding copper metabolism (MURR1) domain containing 1
US14/104,585 Abandoned US20140193482A1 (en) 2012-04-02 2013-12-12 Modified polynucleotides encoding v-myc avian myelocytomatosis viral oncogene homolog
US14/104,556 Active US9114113B2 (en) 2012-04-02 2013-12-12 Modified polynucleotides encoding citeD4
US14/105,208 Active 2034-05-10 US9675668B2 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding hepatitis A virus cellular receptor 2
US14/105,221 Abandoned US20140255468A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding programmed cell death 1
US14/105,210 Abandoned US20150044277A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding caspase 3
US14/105,214 Abandoned US20140171485A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding cd28 molecule
US14/105,217 Abandoned US20140255467A1 (en) 2012-04-02 2013-12-13 Modified polynucleotides encoding cytotoxic t-lymphocyte-associated protein 4
US14/106,957 Active US9050297B2 (en) 2012-04-02 2013-12-16 Modified polynucleotides encoding aryl hydrocarbon receptor nuclear translocator
US14/106,988 Active US9301993B2 (en) 2012-04-02 2013-12-16 Modified polynucleotides encoding apoptosis inducing factor 1
US14/107,029 Abandoned US20140113959A1 (en) 2012-04-02 2013-12-16 Modified polynucleotides encoding caspase 6
US14/107,079 Active US9149506B2 (en) 2012-04-02 2013-12-16 Modified polynucleotides encoding septin-4
US14/171,226 Active US9061059B2 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating protein deficiency
US14/170,910 Abandoned US20140155474A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating cystic fibrosis
US14/170,744 Abandoned US20140148502A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating protein deficiency
US14/171,249 Active US9089604B2 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating galactosylceramidase protein deficiency
US14/170,751 Abandoned US20140200263A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating galactosidase, alpha protein deficiency
US14/170,903 Abandoned US20140155473A1 (en) 2012-04-02 2014-02-03 Modified glucosidase, beta, acid polynucleotides for treating protein deficiency
US14/171,235 Abandoned US20140206755A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating arylsulfatase a protein deficiency
US14/170,897 Abandoned US20140155472A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating argininosuccinate synthase 1 protein deficiency
US14/171,242 Abandoned US20140200264A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating carboxypeptidase n, polypeptide 1 protein deficiency
US14/170,747 Abandoned US20140194494A1 (en) 2012-04-02 2014-02-03 Modified polynucleotides for treating protein deficiency
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US15/403,517 Active US10493167B2 (en) 2012-04-02 2017-01-11 In vivo production of proteins
US15/425,645 Active US10463751B2 (en) 2012-04-02 2017-02-06 Modified polynucleotides for the production of cytoplasmic and cytoskeletal proteins
US15/789,138 Abandoned US20190240351A1 (en) 2012-04-02 2017-10-20 Modified polynucleotides for the production of proteins
US15/790,246 Active US10772975B2 (en) 2012-04-02 2017-10-23 Modified Polynucleotides for the production of biologics and proteins associated with human disease
US16/442,168 Active US10583203B2 (en) 2012-04-02 2019-06-14 In vivo production of proteins
US16/577,734 Active 2034-06-10 US11564998B2 (en) 2012-04-02 2019-09-20 Modified polynucleotides for the production of cytoplasmic and cytoskeletal proteins
US16/811,648 Abandoned US20210077634A1 (en) 2012-04-02 2020-03-06 In vivo production of proteins
US17/020,522 Abandoned US20210299278A1 (en) 2012-04-02 2020-09-14 Modified polynucleotides for the production of biologics and proteins associated with human disease
US18/161,598 Pending US20240131193A1 (en) 2012-04-02 2023-01-30 Modified polynucleotides for the production of cytoplasmic and cytoskeletal proteins
US18/760,652 Pending US20250018062A1 (en) 2012-04-02 2024-07-01 Modified polynucleotides for the production of biologics and proteins associated with human disease

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