技术资料

Pluripotent stem cells,both human embryonic stem cells (hESC) and human-induced pluripotent stem cells (hiPSC),can give rise to multiple cell types and hence have tremendous potential for regenerative therapies. However,the tumorigenic potential of these cells remains a great concern,as reflected in the formation of teratomas by transplanted pluripotent cells. In clinical practice,most pluripotent cells will be differentiated into useful therapeutic cell types such as neuronal,cardiac,or endothelial cells prior to human transplantation,drastically reducing their tumorigenic potential. Our work investigated the extent to which these differentiated stem cell derivatives are truly devoid of oncogenic potential. In this study,we analyzed the gene expression patterns from three sets of hiPSC- and hESC-derivatives and the corresponding primary cells,and compared their transcriptomes with those of five different types of cancer. Our analysis revealed a significant gene expression overlap of the hiPSC- and hESC-derivatives with cancer,whereas the corresponding primary cells showed minimum overlap. Real-time quantitative PCR analysis of a set of cancer-related genes (selected on the basis of rigorous functional and pathway analyses) confirmed our results. Overall,our findings suggested that pluripotent stem cell derivatives may still bear oncogenic properties even after differentiation,and additional stringent functional assays to purify these cells should be done before they can be used for regenerative therapy. View Publication

A potential application of embryonic and inducible pluripotent stem cells for the therapy of degenerative diseases involves pure somatic cells,free of tumorigenic undifferentiated embryonic and inducible pluripotent stem cells. In complex collections of chemicals with pharmacological potential we expect to find molecules able to induce specific pluripotent stem cell death,which could be used in some cell therapy settings to eliminate undifferentiated cells. Therefore,we have screened a chemical library of 1120 small chemicals to identify compounds that induce specifically apoptotic cell death in undifferentiated mouse embryonic stem cells (ESCs). Interestingly,three compounds currently used as clinically approved drugs,nortriptyline,benzethonium chloride and methylbenzethonium chloride,induced differential effects in cell viability in ESCs versus mouse embryonic fibroblasts (MEFs). Nortriptyline induced apoptotic cell death in MEFs but not in ESCs,whereas benzethonium and methylbenzethonium chloride showed the opposite effect. Nortriptyline,a tricyclic antidepressant,has also been described as a potent inhibitor of mitochondrial permeability transition,one of two major mechanisms involved in mitochondrial membrane permeabilization during apoptosis. Benzethonium chloride and methylbenzethonium chloride are quaternary ammonium salts used as antimicrobial agents with broad spectrum and have also been described as anticancer agents. A similar effect of benzethonium chloride was observed in human induced pluripotent stem cells (hiPSCs) when compared to both primary human skin fibroblasts and an established human fibroblast cell line. Human fibroblasts and hiPSCs were similarly resistant to nortriptyline,although with a different behavior. Our results indicate differential sensitivity of ESCs,hiPSCs and fibroblasts to certain chemical compounds,which might have important applications in the stem cell-based therapy by eliminating undifferentiated pluripotent stem cells from stem cell-derived somatic cells to prevent tumor formation after transplantation for therapy of degenerative diseases. View Publication

BACKGROUND: We recently reported that gastrointestinal (GI) cancer cells can be reprogrammed to a pluripotent state by the ectopic expression of defined embryonic stem (ES)-like transcriptional factors. The induced pluripotent cancer (iPC) cells from GI cancer were sensitized to chemotherapeutic agents and differentiation-inducing treatment during a short-term culture,although a phenotype induced by long-term culture needs to be studied. METHODS: A long-term cultured (Lc)-iPC cells were produced in GI cancer cell lines by virus-mediated introduction of four ES-like genes-c-MYC,SOX2,OCT3/4,and KLF4-followed by a culture more than three months after iPC cells induction. An acquired state was studied by expression of immature-related surface antigens,Tra-1-60,Tra-1-81,Tra-2-49,and Ssea-4; and epigenetic trimethyl modification at lysine 4 of histone H3. Sensitivity to chemotherapeutic agents and tumorigenicity were studied in Lc-iPC cells. RESULTS: Whereas the introduction of defined factors of iPC cells once induced an immature state and sensitized cells to therapeutic reagents,the endogenous expression of the ES-like genes except for activated endogenous c-MYC was down-regulated in a long-term culture,suggesting a high magnitude of the reprogramming induction by defined factors and the requirement of therapeutic maintenance in Lc-iPC cells from cholangiocellular carcinoma HuCC-T1 cells,which harbor TP53(R175H) and KRAS(G12D). The Lc-iPC cells showed resistance to 5-fluorouracil in culture,and high tumorigenic ability with activated endogenous c-MYC in immunodeficient mice. CONCLUSION: The Lc-iPC cells from HuCC-T1 might be prone to an undesirable therapeutic response because of an association with the activated endogenous c-MYC. To consider the possible therapeutic approach in GI cancer,it would be necessary to develop a predictive method for evaluating the improper reprogramming-associated aggressive phenotype of iPC cells. View Publication

We have systematically developed single cell-inoculated suspension cultures of human embryonic stem cells (hESC) in defined media. Cell survival was dependent on hESC re-aggregation. In the presence of the Rho kinase inhibitor Y-27632 (Ri) only ∼ 44% of the seeded cells were rescued,but an optimized heat shock treatment combined with Ri significantly increased cell survival to ∼ 60%. Mechanistically,our data suggest that E-cadherin plays a role in hESC aggregation and that dissociation and re-aggregation upon passaging functions as a purification step towards a pluripotency markers-enriched population. Mass expansion of hESC was readily achieved by up-scaling 2 ml cultures to serial passaging in 50 ml spinner flasks. A media comparison revealed that mTeSR was superior to KnockOut-SR in supporting cell proliferation and pluripotency. Persistent expression of pluripotency markers was achieved for two lines (hES2,hES3) that were used at higher passages (textgreater 86). In contrast,rapid down regulation of Oct4,Tra-1-60,and SSEA4 was observed for ESI049,a clinically compliant line,used at passages 20-36. The up-scaling strategy has significant potential to provide pluripotent cells on a clinical scale. Nevertheless,our data also highlights a significant line-to-line variability and the need for a critical assessment of novel methods with numerous relevant cell lines. textcopyright 2010 Elsevier B.V. All rights reserved. View Publication