WO2011070001A1 - Milieu conditionné dérivé de cellules souches adultes et/ou cellules souches adultes pour utilisation dans le traitement thérapeutique d'une maladie tumorale - Google Patents

Milieu conditionné dérivé de cellules souches adultes et/ou cellules souches adultes pour utilisation dans le traitement thérapeutique d'une maladie tumorale Download PDF

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WO2011070001A1
WO2011070001A1 PCT/EP2010/069049 EP2010069049W WO2011070001A1 WO 2011070001 A1 WO2011070001 A1 WO 2011070001A1 EP 2010069049 W EP2010069049 W EP 2010069049W WO 2011070001 A1 WO2011070001 A1 WO 2011070001A1
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cell
conditioned medium
stem cell
tumour
adult stem
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Maria Beatriz Herrera Sanchez
Valentina Fonsato
Ciro Tetta
Giovanni Camussi
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Fresenius Medical Care Deutschland GmbH
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Fresenius Medical Care Deutschland GmbH
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Priority to DK10788321.7T priority Critical patent/DK2510085T3/da
Priority to CN201080055957.6A priority patent/CN102686723B/zh
Priority to EP10788321.7A priority patent/EP2510085B1/fr
Priority to PL10788321T priority patent/PL2510085T3/pl
Priority to US13/514,719 priority patent/US9034335B2/en
Priority to ES10788321T priority patent/ES2752348T3/es
Priority to JP2012542512A priority patent/JP5788405B2/ja
Publication of WO2011070001A1 publication Critical patent/WO2011070001A1/fr
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    • C12NMICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
    • C12N5/00Undifferentiated human, animal or plant cells, e.g. cell lines; Tissues; Cultivation or maintenance thereof; Culture media therefor
    • C12N5/06Animal cells or tissues; Human cells or tissues
    • C12N5/0602Vertebrate cells
    • C12N5/067Hepatocytes
    • C12N5/0672Stem cells; Progenitor cells; Precursor cells; Oval cells
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K35/00Medicinal preparations containing materials or reaction products thereof with undetermined constitution
    • A61K35/12Materials from mammals; Compositions comprising non-specified tissues or cells; Compositions comprising non-embryonic stem cells; Genetically modified cells
    • A61K35/28Bone marrow; Haematopoietic stem cells; Mesenchymal stem cells of any origin, e.g. adipose-derived stem cells
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K35/00Medicinal preparations containing materials or reaction products thereof with undetermined constitution
    • A61K35/12Materials from mammals; Compositions comprising non-specified tissues or cells; Compositions comprising non-embryonic stem cells; Genetically modified cells
    • A61K35/35Fat tissue; Adipocytes; Stromal cells; Connective tissues
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P35/00Antineoplastic agents
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    • C12N2500/00Specific components of cell culture medium
    • C12N2500/70Undefined extracts
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    • C12N2500/84Undefined extracts from animals from mammals
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    • C12N2501/00Active agents used in cell culture processes, e.g. differentation
    • C12N2501/10Growth factors
    • C12N2501/11Epidermal growth factor [EGF]
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    • C12N2501/00Active agents used in cell culture processes, e.g. differentation
    • C12N2501/30Hormones
    • C12N2501/38Hormones with nuclear receptors
    • C12N2501/39Steroid hormones
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    • C12N2502/00Coculture with; Conditioned medium produced by
    • C12N2502/14Coculture with; Conditioned medium produced by hepatocytes

Definitions

  • the present invention relates to the field of therapeutic treatment of tumour diseases.
  • Metastatic cancer cells share many characteristics with stem cells such as their ability to self-renew and to generate a diverse progeny. Moreover, the phenotype of stem cells and cancer cells is profoundly influenced by the microenvironment. At the same time, the embryonic microenvironments have been shown to inhibit the tumorigenicity of a variety of cancer cell lines. It was demonstrated that exposure of metastatic melanoma cells to an embryonic zebrafish microenvironment, before gastrulation, results in their reprogramming toward a non-tumorigenic phenotype (Cucina A, et al. (2006). Zebrafish embryo proteins induce apoptosis in human colon cancer cells (Caco2). Apoptosis 11 :1615-1628; Lee LM, et al.
  • embryonic stem cells that are difficult to obtain and give rise to both ethical and methodological concerns, in that destruction of the embryo is needed to obtain the embryonic stem cells.
  • embryonic stem cells may undergo uncontrolled proliferation upon transplantation in vivo.
  • HLSCs Human adult non-oval liver stem/progenitor cells expressing both mesenchymal and embryonic stem cells markers and having multipotent differentiation abilities and regenerative properties were disclosed by the present inventors in the International patent application published as WO 2006/126219.
  • HLSCs were defined as “pluripotent progenitor cells”, it should be understood that the expressions “progenitor cells” and “stem cells” both refer to cells which are capable of self-renewing and differentiating into specialized (i.e. differentiated) cell types.
  • multipotent and “pluripotent” are considered to be interchangeable within the context of the present description, in that they both refer to the ability of a stem/progenitor cell to differentiate into a plurality of specialized (differentiated) cell types.
  • a plurality means at least two, preferably at least three, specialized (differentiated) cell types.
  • adult stem cell is intended to mean a stem cell that is isolated from an adult tissue, in contrast with an “embryonic stem cell” which is isolated from the inner cell mass of a blastocyst.
  • embryonic stem cell which is isolated from the inner cell mass of a blastocyst.
  • embryonic stem cells are also known as “somatic stem cells”.
  • the human non-oval liver pluripotent progenitor/stem cells disclosed in WO 2006/126236 were shown to undergo differentiation into a variety of tissue cell types (namely, mature liver cells, epithelial cells, insulin-producing cells and osteogenic cells) and to exert organ regenerating effects.
  • tissue cell types namely, mature liver cells, epithelial cells, insulin-producing cells and osteogenic cells
  • Such cells are derived from a non-oval human liver pluripotent progenitor cell line which expresses hepatic cell markers.
  • Such cells are isolated by a method comprising the steps of:
  • step (i) wherein the mature hepatocytes are frozen in a serum-containing culture medium in the presence of a cryoprotecting agent and then thawed prior to culturing according to step (i).
  • MSCs mesenchymal stem cells
  • bone marrow-derived MSCs are known to naturally support hematopoiesis by secreting a number of trophic molecules, including soluble extracellular matrix glycoproteins, cytokines and growth factors.
  • stem cell preparations have the major disadvantage of causing immune reactions when administered. Some stem cell preparations even have the potential to cause cancer.
  • CM conditioned medium
  • CM conditioned medium
  • suitable for use in the anti-tumour therapeutic application of the invention comprises a plurality of molecules and biomolecules, particularly proteins, more particularly cytokines, secreted by the stem cell during culturing.
  • a first aspect of the present invention is a conditioned medium which comprises a plurality of cell-secreted proteins and which is obtainable by culturing in a liquid cell culture medium an adult stem cell capable of differentiating into a plurality of differentiated cell types, for use in the therapeutic treatment of a tumour disease.
  • the conditioned medium is cell free.
  • the conditioned medium comprises a cell fraction consisting of the adult stem cell from which the conditioned medium is obtainable.
  • the adult stem cell itself as defined above is used for the therapeutic treatment of a tumour disease.
  • Another aspect of the present invention is the use of the conditioned medium which comprises a plurality of cell-secreted proteins and which is obtainable by culturing in a liquid cell culture medium an adult stem cell capable of differentiating into a plurality of differentiated cell types, for preparing a medicament for the therapeutic treatment of a tumour disease.
  • Either the cell free or the cell fraction-containing conditioned medium is suitable for use in the therapeutic treatment of a tumour disease.
  • the cell free conditioned medium is preferred.
  • a liquid cell culture medium suitable for obtaining the conditioned medium useful for the treatment of a tumor disease is disclosed in the experimental section of the patent description.
  • any liquid cell culture medium suitable for culturing mammalian stem or progenitor cells can be used to obtain the cell culture medium according to the present invention.
  • the following alternative media are mentioned by way of non-limiting examples: Dulbecco's Modified Eagle Medium: Nutrient Mixture F-12(DMEM/ -72), oswell Park Memorial Institute medium (RPMI-1640), Minimum Essential Medium (MEM) Alpha Medium (a-MEM), Medium 199 and Iscove's Modified Dulbecco's Medium (IMDM)
  • a suitable culture medium which may depend e.g. on the particular type of stem cell used for producing the culture medium, is well within the knowledge and abilities of the person skilled in the art.
  • the cell fraction is cultured for a predetermined period of time, then it removed from the liquid cell culture medium by centrifugation or filtration.
  • a suitable predetermined period of time is for example comprised between 6 to 48 hours, preferably between 12 to 24 hours.
  • Any culture medium suitable for cultivation of adult stem/progenitor animal or human cells, preferably mammal cells, under non-differentiating conditions is suitable for use as the liquid cell culture medium.
  • the cell-free conditioned medium thereby obtained is optionally subjected to a further purification step e.g. by ultracentrifugation.
  • Ultracentrifugation is conveniently carried out at about 20,000 to 300,000 g, preferably at about 80,000 to 200,000 g for about 1 hour at a temperature lower than room temperature, e.g. at about 4°C.
  • Further optional purification steps are the removal of the fraction of matter having a Nominal Molecular Weight (NMW) lower than about 3KDa, which is effected e.g. by ultrafiltration, and/or the treatment with RNase in order to degrade any free RNA possibly contained within the conditioned medium.
  • NMW Nominal Molecular Weight
  • the adult stem cell is selected from the group consisting of a liver stem cell, a renal stem cell, an adipose stem cell, a mesenchymal stem cell, a perivascular multipotent progenitor cell, a dental pulp stem cell, an epithelial stem cell, a hematopoietic stem cell, a stem cell from exfoliated deciduous teeth and an umbilical cord stem cell.
  • the adult stem cell can either be an animal stem cell or a human stem cell. Human stem cells are preferred when the therapeutic treatment is to be administered to a human patient.
  • the adult stem cell is a non-oval liver stem cell, preferably the non-oval human liver pluripotent progenitor cell (HLSC) disclosed in WO 2006/126236.
  • HLSC human liver pluripotent progenitor cell
  • a conditioned medium effective for the therapeutic treatment of a tumor disease is also obtainable from other stem cells such as those mentioned in the preceding paragraph.
  • the "Comparative Example” provided in the experimental section of the patent description shows that both HLSC-CM and MSC-CM are effective in increasing apoptosis of the HepG2 cells, although HSLC-CM is more effective than MSC-CM.
  • the comparative Example also shows that both conditioned media (HSLC-CM and MSC-CM) are more effective than TGF- ⁇ alone.
  • the conditioned medium derived from a non-oval liver stem cell preferably the non-oval human liver pluripotent progenitor cell disclosed in WO 2006/126236, shall be referred to as the "HLSC-CM".
  • HLSC-CM is preferably cell free.
  • the HLSCs have the features summarised in Table I, page 7 of WO2006/126236 (wherein said cells are designated as "HuHEP"), which illustrates their characterization by FACS and immunofluorescence analysis. The results of such analysis are reported herein below.
  • AFP a-fetoprotein
  • composition of the HLSC-CM obtained from the non-oval human liver pluripotent progenitor cell disclosed in WO 2006/126236 has been characterized and disclosed in International patent application PCT/EP2009/057232. Such features are hereby incorporated by reference.
  • the cell-free HLSC-CM is obtained by culturing the HLSCs disclosed in WO 2006/126236 either under GMP conditions, which are known to the skilled person, or in a BAL (BioArtificial Liver) system, which is also known to the skilled person.
  • GMP conditions which are known to the skilled person
  • BAL BioArtificial Liver
  • GMP conditions for growing liver pluripotent progenitor/stem cells and collecting the cell-free conditioned medium (CM) thereof is as follows.
  • Liver pluripotent progenitor/stem cells are isolated by the method disclosed in WO2006/126236, in which the expansion step is carried out by culturing the progenitor stem cells in the presence of foetal calf serum (FCS) preferably at a concentration of about 10%, hEGF (human epithelial growth factor) and bFGF (basic fibroblast growth factor).
  • FCS foetal calf serum
  • hEGF human epithelial growth factor
  • bFGF basic fibroblast growth factor
  • FCS, bFGF and hEGF are preferably GMP grade, e.g. those produced by Invitrogen.
  • FCS is removed from the culture, since this is an heterologous protein that is not suitable for injection into humans.
  • the cells are washed and cultured for 24 hours in a collecting medium comprised e.g. of alpha-MEM supplemented with GMP grade human albumin. Albumin is preferably at a concentration of about 0.05 %.
  • a collecting medium comprised e.g. of alpha-MEM supplemented with GMP grade human albumin.
  • Albumin is preferably at a concentration of about 0.05 %.
  • alpha-MEM alone or alpha- MEM supplemented with 2% FCS may be used.
  • the cell-free conditioned medium is then collected by centrifugation or filtration.
  • the tumour disease is a solid tumour.
  • the tumour disease is selected from the group comprising liver tumour, epithelial tumour, breast tumour, lung tumour, prostate tumour, gastric tumour and colon tumour. More preferably, the tumour disease is hepatoma, Kaposi's sarcoma or breast adenocarcinoma.
  • the cell-free conditioned medium is either used as such or in a concentrated form.
  • a concentrated form is concentrated for example at least approximately 5 -fold, preferably at least approximately 10-fold, more preferably at least approximately 20-fold, even more preferably approximately 25-fold.
  • the cell-free conditioned medium is administered either locally or systemically.
  • a pharmaceutical dosage form suitable for both local and systemic administration is an injectable dosage form.
  • the cell-free CM can be administered by local intra-tumour (i.t.) injection when the tumour is a solid one, or by i.v. injection in the case of metastasis.
  • Figure 1 is a graph showing the results of in vitro proliferation assays carried out by incubating HepG2 cells with different doses of 25 concentrated HLSC-CM for 48 hours. Proliferation of HepG2 was evaluated by BrdU incorporation assay after 48 hours of incubation. HepG2 were cultured in DMEM only or in DMEM supplemented with 0.5; 2; 8 or 16 % of 25 x concentrated CM. After 48 hours, the proliferation of HepG2 cells was quantified using BrdU incorporation assay. The experiments were performed in quadruplicate. The data shown are mean ⁇ standard deviation of eight experiments. P ⁇ 0.05.
  • Figure 2 is a graph showing the results of in vitro proliferation assays carried out by incubating HepG2 cells with different doses of 25x concentrated HLSC-CM for 4 days. Proliferation of HepG2 was evaluated by BrdU incorporation assay after 4 days of incubation. HepG2 were cultured in DMEM only or in DMEM supplemented with 1 ; 8 or 16 % of 25 x concentrated HLSC-CM for 4 days. The experiments were performed in quadruplicate. The data shown are mean ⁇ standard deviation of eight experiments. P ⁇ 0.05.
  • Figure 3 is a graph showing the results of in vitro proliferation assays carried out by incubating HepG2, MCF-7 and Kaposi cells (KS) with two different preparations of 25x concentrated HLSC-CM. Proliferation of HepG2, MCF-7 and Kaposi cells (KS) was evaluated by BrdU incorporation assay after 48 hours of incubation with 16% of 25 concentrated CM derived from HLSC6b and from HLSC2. The experiments were performed in duplicate. The data shown are mean ⁇ standard deviation of four experiments. P ⁇ 0.05.
  • Figure 4 is a graph showing the results of in vitro apoptosis assays carried out by incubating HepG2 cells with 25X concentrated HLSC-CM.
  • Apoptosis of HepG2 was evaluated by TUNEL assay as the percentage of apoptotic cells after 24-hours of incubation with different doses of CM ( 0.5 ; 1; 2; 6; and 16 % of 25X concentrated CM).
  • Vincristine and Doxorubicin were used as the positive control of apoptosis induction; in the negative control HepG2 were treated with vehicle alone. The results are expressed as mean ⁇ SD of 3 different experiments.
  • Figure 5 is a graph showing the results of in vitro apoptosis assays carried out by incubating HepG2, MCF-7 and KS cells with 25X concentrated HLSC-CM.
  • Apoptosis of HepG2, MCF-7 and KS cells was evaluated by TUNEL assay as the percentage of apoptotic cells after 72-hours of incubation with 16 % of 25X concentrated CM derived from two different cell preparation (HLSC-6B and HLSC-2).
  • Vincristine was used as the positive control of apoptosis induction; in the negative control, the cells were treated with vehicle alone. The results are expressed as mean ⁇ SD of 3 different experiments. P ⁇ 0.05.
  • Figure 6 is a graph showing the anti-tumour activity of HLSC- CM administrated i.t. into SCID mice transplanted with HepG2. Tumour volume was determined by measuring with a caliper two perpendicular diameters of the implant every week.
  • Figure 9 are micrographs showing the in vivo inhibition of the tumour growth by HLSC- CM treatment and the induced intra-tumour apoptosis (A). Representative micrographs of recovered HepG2 tumors after 4 weeks, from CM-treated and not treated mice.
  • D Representative micrographs showing apoptosis of recovered HepG2 tumors treated with vehicle alone or HepG2 tumors treated with CM from HLSC.
  • a human hepatoma cell line, HepG2 was cultured in DMEM supplemented with 10% fetal bovine serum, 100 ⁇ g/ml penicillin and 100 ⁇ g/ml streptomycin and maintained in an incubator with a humidified atmosphere of 5% C0 2 at 37°C.
  • HLSCs Human liver stem cells
  • EBM Human liver stem cells
  • MCF-7 breast adenocarcinoma cell lines were obtained from American Type Culture Collection (Manassas, VA) and were cultured in DMEM supplemented with 10% of FCS, 100 ⁇ g/ml penicillin and 100 ⁇ g/ml streptomycin and maintained in an incubator with a humidified atmosphere of 5% C0 2 at 37°C.
  • KS cells Kaposi's sarcoma cells
  • RPMI 1640 medium supplemented with 10% of FCS, 100 ⁇ g/ml penicillin and 100 ⁇ / ⁇ streptomycin.
  • CM conditioned medium
  • CM human target proteins derived from HLSC-CM were simultaneously detected.
  • CM was collected after 48 hours culture of lxlO 6 cells in the presence of aMEM supplemented with 0.2% of FCS as described in protein array protocol.
  • the panel of molecules included cytokines, chemokines, adipokine, growth factors, angiogenic factors, proteases, soluble receptors, soluble adhesion molecules, and other proteins in cell culture supernatant.
  • HLSC-CM To prepare HLSC-CM, cells were plated in 100 mm tissue culture dishes at a density of 1 x 10 6 cells per dish. Cells were then culture with complete culture medium for 24-48 hours. After that, medium was replaced with lower serum (0.2% FCS) and then the cells were cultured for 48 hours again once more. The CM was collected, and centrifuged at 1000 g. The CM was dialyzed before biotin-labeling step. Through a simple process, the primary amine of the proteins in the samples were biotinylated, followed by dialysis to remove free biotin. From here, the newly biotinylated samples were added onto the array membrane and incubated at room temperature.
  • beta-Catenin 4.23 1.61 beta-Defensin 2 4.31 1.63 beta-NGF 4.38 1.66
  • ICAM-2 3.28 1.16
  • ICAM-3 3.77 1.15
  • NAP-2 9.61 1.71
  • NCAM-1 / CD56 5.11 1.24
  • TPO Thrombopoietin
  • Thrombospondin-2 10.81 1.94
  • VCAM-1 (CD 106) 5.02 1.11
  • the hepatocellular cell line HepG2 was co-cultured in transwell chambers with HLSC. At the end of the experiments, the proliferation of HepG2 was evaluated. The lower compartment was seeded with HepG2 (2.5 x 10 4 cells). The upper compartment was seeded with HLSC (1 x 10 5 ). The co-culture was maintained for 4 days. After 4 days, the medium was removed and the HepG2 were fixed in 10% formalin and stained with H&E.
  • CM derived from HLSCs exerted its anti-tumor activity also on cell lines from different tumours
  • MCF- 7 breast adenocarcinoma and Kaposi's sarcoma cells were used, and the anti-tumour effects were compared with those observed on HepG2.
  • DNA synthesis was detected as incorporation of 5-bromo-2'-deoxy-uridine (BrdU) into the cellular DNA after 48 hours of culture. The cells were then fixed with 0.5 M ethanol/HCl and incubated with nuclease to digest the DNA.
  • the BrdU incorporated into the DNA was detected with an anti-BrdU peroxidase-conjugated monoclonal antibody (mAb) and visualized with a soluble chromogenic substrate.
  • mAb peroxidase-conjugated monoclonal antibody
  • the optical density was measured with an ELISA reader at 405 nm.
  • HepG2, MCF-7 and KS cells were seeded at 8,000 cells/well in 96-well plates in low glucose DMEM (Sigma) with 10% FCS and in the presence of Doxorubicin (100 ng/ml, Sigma) or vincristine (50 ng/ml, Sigma) or different concentrations of CM (0.5; 1; 2; 8; 16% of 25X concentrated CM). Apoptosis was evaluated with the TUNEL assay (ApopTag Oncor, Gaithersburg, MD, USA).
  • CM treatment started 10 days after tumor transplantation with three subsequent i.t. injections. A total of 3 injections of 20 ⁇ CM were administered to each developed tumor. Treatment started when tumors reached the volume of approximately 15 mm 3 . The animals were monitored for activity and physical condition everyday, and the determination of body weight and measurement of tumor volume were effected at each treatment.
  • tumours were measured with calipers.
  • the tumour volume was determined measuring two perpendicular diameters of the implanted tumours and was calculated using the formula Via x b 2 wherein a is the long diameter and b is the short diameter.
  • Tumours were fixed in 10% buffered neutral formalin, routinely processed, embedded in paraffin, sectioned at 5 ⁇ , and stained with H&E for microscopic examination. Immunohistochemistry for detection of proliferation was performed using the anti-PCNA monoclonal antibody. Sections were blocked and labeled with anti-mouse HRP secondary antibody (1 :300 dilution). Omission of the primary antibodies or substitution with non immune mouse IgG was used as the control. Apoptosis was evaluated in paraffin- embedded tumour sections by TUNEL. Ten non consecutive sections were counted for apoptotic- positive tumour cells at 630X magnification. Hoechst 33258 dye was added for nuclear staining.
  • CM derived from HLSC inhibits in vitro proliferation of HepG2 cells
  • CM derived from HLSC inhibits in vitro proliferation of MCF-7 and KS cells
  • CM derived from HLSC promoted in vitro apoptosis of MCF-7 and KS cells
  • CM derived form HLSC Tumor growth and proliferation were inhibited by CM derived form HLSC in Hepatoma xenograft model in SCID mice
  • mice were subcutaneously transplanted with the human hepatocarcinoma cell line HepG2. Ten days after the injection of HepG2, when the volume of tumors was about 15 mm 3 , mice were treated with intra-tumor injection of CM, for a maximum of 20 ⁇ of volume. In control mice, tumours were injected with 20 ⁇ of PBS. After ten days of HepG2 injection, all tumors were recovered and analyzed. In this xenograft model, intra-tumor injection of CM (Figure 6; Figure 9, Panel A) showed a inhibition effect on tumor growth.
  • the Wnt/p-catenin signalling pathway is known to be implicated in embryogenesis and carcinogenesis. Clinical studies have reported that abnormal activation of Wnt/p-catenin pathway is frequently involved in hepatocarcinogenesis. The Wnt-1 ligand has been reported to be abnormally expressed in a variety of human cancers including HCC.
  • the present inventors hypothesize that one of the mechanisms possibly underlying the anti-tumour effects of the stem cell-derived conditioned media tested by the inventors are reported above, might be the inhibition of the Wnt/p-catenin signalling pathway.
  • HepG2 was cultured in DMEM supplemented with 10% foetal bovine serum, 100 ⁇ 3 ⁇ 4*/ ⁇ 1 penicillin and 100 ⁇ streptomycin and maintained in an incubator with a humidified atmosphere of 5% C0 2 at 37° C.
  • HLSC were cultured in a-MEM/EBM (3:1), supplemented with 10% foetal bovine serum. The day before HLSC CM collection, HLSC were incubated with only a-MEM supplemented with 10% foetal bovine serum in order to eliminate growth factors contained in EBM medium. This medium change was performed before each experiment that was done.
  • HepG2 were seeded at 8,000 cell/well in 96-well plates in low glucose DMEM (Sigma) with 10% FCS and in the presence of 16% of 25X concentrated CM obtained from HLSC or MSC, or in the presence of 3 ng/ml of TGF- ⁇ . Apoptosis was evaluated with the TUNEL assay after 24 hours.
  • Figure 10 is a graph showing the results of in vitro apoptosis assay carried out by incubating HepG2 with 25x concentrated HLSC-CM (16%), or MSC-CM (16%), or with TGF- ⁇ (3 ng/ml) after 24 hours. Apoptosis of HepG2 was evaluated as the percentage of apoptotic cells. The results are expressed as mean ⁇ SD of an experiment performed in duplicate.

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Abstract

L'invention concerne le domaine du traitement thérapeutique de tumeurs. Il a été observé que le milieu conditionné résultant de la culture d'une cellule souche adulte capable de se différencier en une pluralité de types de cellules différenciées dans un milieu de culture de cellules liquide et/ou la cellule souche adulte à partir de laquelle le milieu conditionné peut être obtenu, exercent un effet anticancéreux remarquable. Le milieu conditionné dérivé d'une cellule souche adulte préféré dans cette application thérapeutique est un milieu conditionné sans cellules dérivé d'une cellule souche de foie humain (HLSC-CM).
PCT/EP2010/069049 2009-12-09 2010-12-07 Milieu conditionné dérivé de cellules souches adultes et/ou cellules souches adultes pour utilisation dans le traitement thérapeutique d'une maladie tumorale Ceased WO2011070001A1 (fr)

Priority Applications (7)

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DK10788321.7T DK2510085T3 (da) 2009-12-09 2010-12-07 Vokenstamcelle-afledt konditioneret medium og/eller voksenstamceller til anvendelse i den terapeutiske behandling af en tumorsygdom
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JP5788405B2 (ja) 2015-09-30
PL2510085T3 (pl) 2020-01-31
CN102686723A (zh) 2012-09-19
US9034335B2 (en) 2015-05-19
CN102686723B (zh) 2016-11-23
EP2510085A1 (fr) 2012-10-17
EP2510085B1 (fr) 2019-08-07
US20120251489A1 (en) 2012-10-04
EP2333047A1 (fr) 2011-06-15
JP2013513366A (ja) 2013-04-22
DK2510085T3 (da) 2019-10-14
ES2752348T3 (es) 2020-04-06

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