Eremeev AV et al. ( )
Doklady biological sciences : proceedings of the Academy of Sciences of the USSR,Biological sciences sections / translated from Russian 426 293--5
Derivation of a novel human embryonic stem cell line under serum-free and feeder-free conditions.
Eminli S et al. (SEP 2009)
Nature genetics 41 9 968--76
Differentiation stage determines potential of hematopoietic cells for reprogramming into induced pluripotent stem cells.
The reprogramming of somatic cells into induced pluripotent stem (iPS) cells upon overexpression of the transcription factors Oct4,Sox2,Klf4 and cMyc is inefficient. It has been assumed that the somatic differentiation state provides a barrier for efficient reprogramming; however,direct evidence for this notion is lacking. Here,we tested the potential of mouse hematopoietic cells at different stages of differentiation to be reprogrammed into iPS cells. We show that hematopoietic stem and progenitor cells give rise to iPS cells up to 300 times more efficiently than terminally differentiated B and T cells do,yielding reprogramming efficiencies of up to 28%. Our data provide evidence that the differentiation stage of the starting cell has a critical influence on the efficiency of reprogramming into iPS cells. Moreover,we identify hematopoietic progenitors as an attractive cell type for applications of iPS cell technology in research and therapy.
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产品名:
StemSpan™ CC100
StemSpan™ SFEM
StemSpan™ SFEM
mTeSR™1
mTeSR™1
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
Hui Z et al. (OCT 2009)
Stem Cells 27 10 2435--2445
Lack of ABCG2 expression and side population properties in human pluripotent stem cells
The multidrug transporter ABCG2 in cell membranes enables various stem cells and cancer cells to efflux chemicals,including the fluorescent dye Hoechst 33342. The Hoechst(-) cells can be sorted out as a side population with stem cell properties. Abcg2 expression in mouse embryonic stem cells (ESCs) reduces accumulation of DNA-damaging metabolites in the cells,which helps prevent cell differentiation. Surprisingly,we found that human ESCs do not express ABCG2 and cannot efflux Hoechst. In contrast,trophoblasts and neural epithelial cells derived from human ESCs are ABCG2(+) and Hoechst(-). Human ESCs ectopically expressing ABCG2 become Hoechst(-),more tolerant of toxicity of mitoxantrone,a substrate of ABCG2,and more capable of self-renewal in basic fibroblast growth factor (bFGF)-free condition than control cells. However,Hoechst(low) cells sorted as a small subpopulation from human ESCs express lower levels of pluripotency markers than the Hoechst(high) cells. Similar results were observed with human induced pluripotent stem cells. Conversely,mouse ESCs are Abcg2(+) and mouse trophoblasts,Abcg2(-). Thus,absence of ABCG2 is a novel feature of human pluripotent stem cells,which distinguishes them from many other stem cells including mouse ESCs,and may be a reason why they are sensitive to suboptimal culture conditions.
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mTeSR™1
mTeSR™1
Hockemeyer D et al. (SEP 2009)
Nature biotechnology 27 9 851--7
Efficient targeting of expressed and silent genes in human ESCs and iPSCs using zinc-finger nucleases.
Realizing the full potential of human embryonic stem cells (hESCs) and induced pluripotent stem cells (hiPSCs) requires efficient methods for genetic modification. However,techniques to generate cell type-specific lineage reporters,as well as reliable tools to disrupt,repair or overexpress genes by gene targeting,are inefficient at best and thus are not routinely used. Here we report the highly efficient targeting of three genes in human pluripotent cells using zinc-finger nuclease (ZFN)-mediated genome editing. First,using ZFNs specific for the OCT4 (POU5F1) locus,we generated OCT4-eGFP reporter cells to monitor the pluripotent state of hESCs. Second,we inserted a transgene into the AAVS1 locus to generate a robust drug-inducible overexpression system in hESCs. Finally,we targeted the PITX3 gene,demonstrating that ZFNs can be used to generate reporter cells by targeting non-expressed genes in hESCs and hiPSCs.
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A novel role for ??-secretase in the formation of primitive streak-like intermediates from ES cells in culture
gamma-Secretase is a membrane-associated protease with multiple intracellular targets,a number of which have been shown to influence embryonic development and embryonic stem (ES) cell differentiation. This paper describes the use of the gamma-secretase inhibitor N-[N-(3,5-difluorophenacetyl)-L-alanyl]-S-phenylglycine t-butyl ester (DAPT) to evaluate the role of gamma-secretase in the differentiation of pluripotent stem cells to the germ lineages. The addition of DAPT did not prevent the formation of primitive ectoderm-like cells from ES cells in culture. In contrast,the addition of DAPT during primitive ectoderm-like cell differentiation interfered with the ability of both serum and BMP4 to induce a primitive streak-like intermediate and resulted in the preferential formation of neurectoderm. Similarly,DAPT reduced the formation of primitive streak-like intermediates from differentiating human ES cells; the culture conditions used resulted in a population enriched in human surface ectoderm. These data suggest that gamma-secretase may form part of the general pathway by which mesoderm is specified within the primitive streak. The addition of an E-cadherin neutralizing antibody was able to partially reverse the effect of DAPT,suggesting that DAPT may be preventing the formation of primitive streak-like intermediates and promoting neurectoderm differentiation by stabilizing E-cadherin and preventing its proteolysis.
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Braam SR et al. (OCT 2009)
Trends in pharmacological sciences 30 10 536--45
Cardiomyocytes from human pluripotent stem cells in regenerative medicine and drug discovery.
Stem cells derived from pre-implantation human embryos or from somatic cells by reprogramming are pluripotent and self-renew indefinitely in culture. Pluripotent stem cells are unique in being able to differentiate to any cell type of the human body. Differentiation towards the cardiac lineage has attracted significant attention,initially with a strong focus on regenerative medicine. Although an important research area,the heart has proven challenging to repair by cardiomyocyte replacement. However,the ability to reprogramme adult cells to pluripotent stem cells and genetically manipulate stem cells presented opportunities to develop models of human disease. The availability of human cardiomyocytes from stem cell sources is expected to accelerate the discovery of cardiac drugs and safety pharmacology by offering more clinically relevant human culture models than presently available. Here we review the state-of-the-art using stem cell-derived human cardiomyocytes in drug discovery,drug safety pharmacology,and regenerative medicine.
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mTeSR™1
mTeSR™1
Fu X et al. (AUG 2010)
Tissue engineering. Part C,Methods 16 4 719--733
Autologous feeder cells from embryoid body outgrowth support the long-term growth of human embryonic stem cells more effectively than those from direct differentiation.
Autologous feeder cells have been developed by various methods to minimize the presence of xenogenic entities in human embryonic stem cell (hESC) cultures. However,there was no systematic comparison of supportive effects of the feeder cells on hESC growth,nor comparison to the supportive effects of various feeder-free culture systems and standard mouse feeder cells. In this study,we aimed to compare the supportive abilities of autologous feeders derived either directly from H9 hESCs (H9 dF) or from outgrowth of embryoid body predifferentiated in suspension from H9 hESCs (H9 ebF). Mouse feeder system and matrigel-mTeSR1 feeder-free system were used as controls. H9 ebF was found to secrete more basic fibroblast growth factor in the conditioned medium than H9 dF did. The undifferentiated state of H9 hESCs was sustained more stably on H9 ebF than on H9 dF,and the differentiation potential of H9 hESCs on H9 ebF was higher than on H9 dF. We concluded that H9 ebF was an optimal autologous feeder to maintain the long-term undifferentiated state of hESCs in our current culture system. This study helps to standardize the autologous culture of hESCs. It also suggests a more definite direction for future development of xeno-free culture system for hESCs.
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mTeSR™1
mTeSR™1
Martins-Taylor K and Xu R-H (JAN 2010)
Journal of cellular biochemistry 109 1 16--25
Determinants of pluripotency: from avian, rodents, to primates.
Since mouse embryonic stem (ES) cells was first derived in 1981,the ability of this unprecedented cell type to self-renew and differentiate without limit has revolutionized the discovery tools that are used to study gene functions and development. Furthermore,they have inspired others to hunt for similar cells from other species. The derivation of human ES cells in 1998 has accelerated these discoveries and has also widely provoked public interest,due to both the scientific significance of these cells for human tissue regeneration and the ethical disputes over the use of donated early human embryos. However,this is no longer a barrier,with the recent discovery of methods that can convert differentiated somatic cells into ES-like cells or induced pluripotent stem (iPS) cells,by using defined reprogramming factors. This review attempts to summarize the progresses in the derivation of ES cells (as well as other embryo-derived pluripotent cells) and iPS cells from various species. We will focus on the molecular and biological features of the cells,as well as the different determinants identified thus far to sustain their pluripotency.
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mTeSR™1
mTeSR™1
Fernandes AM et al. (JAN 2010)
Cell Transplantation 19 5 509--23
Worldwide survey of published procedures to culture human embryonic stem cells
Since their derivation 11 years ago,human embryonic stem (hES) cells have become a powerful tool in both basic biomedical research and developmental biology. Their capacity for self-renewal and differentiation into any tissue type has also brought interest from fields such as cell therapy and drug screening. We conducted an extensive analysis of 750 papers (51% of the total published about hES cells between 1998 and 2008) to present a spectrum of hES cell research including culture protocols developed worldwide. This review may stimulate discussions about the importance of having unvarying methods to culture hES cells,in order to facilitate comparisons among data obtained by research groups elsewhere,especially concerning preclinical studies. Moreover,the description of the most widely used cell lines,reagents,and procedures adopted internationally will help newcomers on deciding the best strategies for starting their own studies. Finally,the results will contribute with the efforts of stem cell researchers on comparing the performance of different aspects related to hES cell culture methods.
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mTeSR™1
mTeSR™1
Sokolov MV et al. (MAY 2010)
Gene 455 1-2 8--15
Expression of pluripotency-associated genes in the surviving fraction of cultured human embryonic stem cells is not significantly affected by ionizing radiation.
Human embryonic stem cells (hESC) are capable to give rise to all cell types in the human body during the normal course of development. Therefore,these cells hold a great promise in regenerative cell replacement based therapeutical approaches. However,some controversy exists in literature concerning the ultimate fate of hESC after exposure to genotoxic agents,in particular,regarding the effect of DNA damaging insults on pluripotency of hESC. To comprehensively address this issue,we performed an analysis of the expression of marker genes,associated with pluripotent state of hESC,such as Oct-4,Nanog,Sox-2,SSEA-4,TERT,TRA-1-60 and TRA-1-81 up to 65h after exposure to ionizing radiation (IR) using flow cytometry,immunocytochemistry and quantitative real-time polymerase chain reaction techniques. We show that irradiation with relatively low doses of gamma-radiation (0.2Gy and 1Gy) does not lead to loss of expression of the pluripotency-associated markers in the surviving hESC. While changes in the levels of expression of some of the pluripotency markers were observed at different time points after IR exposure,these alterations were not persistent,and,in most cases,the expression of the pluripotency-associated markers remained significantly higher than that observed in fully differentiated human fibroblasts,and in hESCs differentiated into definitive endodermal lineage. Our data suggest that exposure of hESC to relatively low doses of IR as a model genotoxic agent does not significantly affect pluripotency of the surviving fraction of hESC.
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mTeSR™1
mTeSR™1
Akopian V et al. (APR 2010)
In vitro cellular & developmental biology. Animal 46 3-4 247--258
Comparison of defined culture systems for feeder cell free propagation of human embryonic stem cells.
There are many reports of defined culture systems for the propagation of human embryonic stem cells in the absence of feeder cell support,but no previous study has undertaken a multi-laboratory comparison of these diverse methodologies. In this study,five separate laboratories,each with experience in human embryonic stem cell culture,used a panel of ten embryonic stem cell lines (including WA09 as an index cell line common to all laboratories) to assess eight cell culture methods,with propagation in the presence of Knockout Serum Replacer,FGF-2,and mouse embryonic fibroblast feeder cell layers serving as a positive control. The cultures were assessed for up to ten passages for attachment,death,and differentiated morphology by phase contrast microscopy,for growth by serial cell counts,and for maintenance of stem cell surface marker expression by flow cytometry. Of the eight culture systems,only the control and those based on two commercial media,mTeSR1 and STEMPRO,supported maintenance of most cell lines for ten passages. Cultures grown in the remaining media failed before this point due to lack of attachment,cell death,or overt cell differentiation. Possible explanations for relative success of the commercial formulations in this study,and the lack of success with other formulations from academic groups compared to previously published results,include: the complex combination of growth factors present in the commercial preparations; improved development,manufacture,and quality control in the commercial products; differences in epigenetic adaptation to culture in vitro between different ES cell lines grown in different laboratories.
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