技术资料

Since the first report of derivation of human embryonic stem cell (hESC) lines in 1998,many progresses have been achieved to reliably and efficiently derive,maintain,and differentiate this therapeutically promising cell type. This chapter introduces some basic and widely recognized methods that we use in our hESC core laboratory. Specifically,it includes methods for (1) deriving hESC lines without using enzyme and antibody to isolate the inner cell mass; (2) sustaining hESC self-renewal under feeder-dependent,feeder-conditioned,and defined conditions as well as pluripotency validation and quality control assays; and (3) inducing hESC differentiation to trophoblast with BMP4. View Publication

The use of human pluripotent stem cells,including embryonic and induced pluripotent stem cells,in therapeutic applications will require the development of robust,scalable culture technologies for undifferentiated cells. Advances made in large-scale cultures of other mammalian cells will facilitate expansion of undifferentiated human embryonic stem cells (hESCs),but challenges specific to hESCs will also have to be addressed,including development of defined,humanized culture media and substrates,monitoring spontaneous differentiation and heterogeneity in the cultures,and maintaining karyotypic integrity in the cells. This review will describe our current understanding of environmental factors that regulate hESC self-renewal and efforts to provide these cues in various scalable bioreactor culture systems. View Publication

Human embryonic stem (hES) cells have enormous potential for clinical applications. However,one major challenge is to achieve high cell recovery rate after cryopreservation. Understanding how the conventional cryopreservation protocol fails to protect the cells is a prerequisite for developing efficient and successful cryopreservation methods for hES cell lines and banks. We investigated how the stimuli from cryopreservation result in apoptosis,which causes the low cell recovery rate after cryopreservation. The level of reactive oxygen species (ROS) is significantly increased,F-actin content and distribution is altered,and caspase-8 and caspase-9 are activated after cryopreservation. p53 is also activated and translocated into nucleus. During cryopreservation apoptosis is induced by activation of both caspase-8 through the extrinsic pathway and caspase-9 through the intrinsic pathway. However,exactly how the extrinsic pathway is activated is still unclear and deserves further investigation. View Publication

Meticulous characterization of human embryonic stem cells (hESC) is critical to their eventual use in cell-based therapies,particularly in view of the diverse methods for derivation and maintenance of these cell lines. However,characterization methods are generally not standardized and many currently used assays are subjective,making dependable and direct comparison of cell lines difficult. In order to address this problem,we selected 10 molecular-based high-resolution assays as components of a panel for characterization of hESC. The selection of the assays was primarily based on their quantitative or objective (rather than subjective) nature. We demonstrate the efficacy of this panel by characterizing 4 hESC lines,derived in two different laboratories using different derivation techniques,as pathogen free,genetically stable,and able to differentiate into derivatives of all three germ layers. Our panel expands and refines a characterization panel previously proposed by the International Stem Cell Initiative and is another step toward standardized hESC characterization and quality control,a crucial element of successful hESC research and clinical translation. View Publication

BACKGROUND: Differentiation of human embryonic stem cells into endothelial cells (hESC-ECs) has the potential to provide an unlimited source of cells for novel transplantation therapies of ischemic diseases by supporting angiogenesis and vasculogenesis. However,the endothelial differentiation efficiency of the conventional embryoid body (EB) method is low while the 2-dimensional method of co-culturing with mouse embryonic fibroblasts (MEFs) require animal product,both of which can limit the future clinical application of hESC-ECs. Moreover,to fully understand the beneficial effects of stem cell therapy,investigators must be able to track the functional biology and physiology of transplanted cells in living subjects over time. METHODOLOGY: In this study,we developed an extracellular matrix (ECM) culture system for increasing endothelial differentiation and free from contaminating animal cells. We investigated the transcriptional changes that occur during endothelial differentiation of hESCs using whole genome microarray,and compared to human umbilical vein endothelial cells (HUVECs). We also showed functional vascular formation by hESC-ECs in a mouse dorsal window model. Moreover,our study is the first so far to transplant hESC-ECs in a myocardial infarction model and monitor cell fate using molecular imaging methods. CONCLUSION: Taken together,we report a more efficient method for derivation of hESC-ECs that express appropriate patterns of endothelial genes,form functional vessels in vivo,and improve cardiac function. These studies suggest that hESC-ECs may provide a novel therapy for ischemic heart disease in the future. View Publication

Due to widespread applications of human embryonic stem (hES) cells,it is essential to establish effective protocols for cryopreservation and subsequent culture of hES cells to improve cell recovery. We have developed a new protocol for cryopreservation of dissociated hES cells and subsequent culture. We examined the effects of new formula of freezing solution containing 7.5% dimethylsulfoxide (DMSO) (v/v %) and 2.5% polyethylene glycol (PEG) (w/v %) on cell survival and recovery of hES cells after cryopreservation,and further investigated the role of the combination of Rho-associated kinase (ROCK) inhibitor and p53 inhibitor on cell recovery during the subsequent culture. Compared with the conventional slow-freezing method which uses 10% DMSO as a freezing solution and then cultured in the presence of ROCK inhibitor at the first day of culture,we found out that hES cell recovery was significantly enhanced by around 30 % (P textless 0.05) by the new freezing solution. Moreover,at the first day of post-thaw culture,the presence of 10 microM ROCK inhibitor (Y-27632) and 1 microM pifithrin-mu together further significantly improved cell recovery by around 20% (P textless 0.05) either for feeder-dependent or feeder-independent culture. hES cells remained their undifferentiated status after using this novel protocol for cryopreservation and subsequent culture. Furthermore,this protocol is a scalable cryopreservation method for handling large quantities of hES cells. View Publication

Human embryonic stem (hES) cells hold great promise for application of human cell and tissue replacement therapy. However,the overwhelming majority of currently available hES cell lines have been directly or indirectly exposed to materials containing animal-derived components during their derivation,propagation,and cryopreservation. Unlike feeder based cultures,which require the simultaneous growth of feeder and stem cells,resulting in mixed cell populations,stem cells grown on feeder-free systems are easily separated from the surface,presenting a pure population of cells for downstream applications. In this study we have developed a novel method to expand hES cells in xeno-free,feeder-free conditions using two different matrices derived from xeno-free human foreskin fibroblasts (XF-HFFs). Using XF-HFF-derived extracellular matrix,together with 100ng/ml recombinant bFGF supplemented HEScGRO Basal Medium,long term xeno-free expansion of hES cells is possible. Resulting hES cells were subjected to stringent tests and were found to maintain ES cell features,including morphology,pluripotency,stable karyotype,and expression of cell surface markers,for at least 20 passages. Xeno-free culturing practices are essential for the translation of basic hES cell research into the clinic. Therefore,the method presented in this study demonstrates that hES cells can be cultured in complete xeno-free conditions without the loss of pluripotency and furthermore,without the possibility of contamination from exogenous sources. View Publication

Human embryonic stem (ES) cells can be maintained in an undifferentiated state if the culture medium is first conditioned on a layer of mouse embryonic fibroblast (MEF) feeder cells. Here we show that human ES cell proliferation is coordinated by MEF-secreted heparan sulfate proteoglycans (HSPG) in conditioned medium (CM). These HSPG and other heparinoids can stabilize basic fibroblast growth factor (FGF2) in unconditioned medium at levels comparable to those observed in CM. They also directly mediate binding of FGF2 to the human ES cell surface,and their removal from CM impairs proliferation. Finally,we have developed a purification scheme for MEF-secreted HSPG in CM. Using column chromatography,immunoblotting,and mass spectrometry-based proteomic analysis,we have identified multiple HSPG species in CM. The results demonstrate that HSPG are key signaling cofactors in CM-based human ES cell culture. View Publication

Objective: Human embryonic stem cells (hESCs) and human induced pluripotent stem cells (hiPSCs) constitute unique sources of pluripotent cells,although the molecular mechanisms involved in their differentiation into specific lineages are just beginning to be defined. Here we evaluated the ability of MEDII (medium conditioned by HepG2 cells,a human hepatocarcinoma cell line) to selectively enhance generation of mesodermal derivatives,including hematopoietic cells,from hESCs and hiPSCs. Materials and Methods: Test cells were exposed to MEDII prior to being placed in conditions that promote embryoid body (EB) formation. Hematopoietic activity was measured by clonogenic assays,flow cytometry,quantitative real-time polymerase chain reaction of specific transcript complementary DNAs and the ability of cells to repopulate sublethally irradiated nonobese diabetic/severe combined immunodeficient interleukin-2 receptor ??-chain-null mice for almost 1 year. Results: Exposure of both hESCs and hiPSCs to MEDII induced a rapid and preferential differentiation of hESCs into mesodermal elements. Subsequently produced EBs showed a further enhanced expression of transcripts characteristic of multiple mesodermal lineages,and a concurrent decrease in endodermal and ectodermal cell transcripts. Frequency of all types of clonogenic hematopoietic progenitors in subsequently derived EBs was also increased. In vivo assays of MEDII-treated hESC-derived EBs also showed they contained cells able to undertake low-level but longterm multilineage repopulation of primary and secondary nonobese diabetic/severe combined immunodeficient interleukin-2 receptor ??-chain-null mice. Conclusions: MEDII treatment of hESCs and hiPSCs alike selectively enhances their differentiation into mesodermal cells and allows subsequent generation of detectable levels of hematopoietic progenitors with in vitro and in vivo differentiating activity. ?? 2009 ISEH - Society for Hematology and Stem Cells. View Publication

Long-term in vitro culture of undifferentiated human embryonic stem cells (hESCs) traditionally requires a fibroblast feeder cell layer. Using feeder cells in hESC cultures is highly laborious and limits large-scale hESC production for potential application in regenerative medicine. Replacing feeder cells with defined human extracellular matrix (ECM) components or synthetic biomaterials would be ideal for large-scale production of clinical-grade hESCs. We tested and compared different feeder cell-free hESC culture methods based on different human ECM proteins,human and animal sera matrices,and a Matrigel matrix. Also selected biomaterials were tested for feeder cell-free propagation of undifferentiated hESCs. The matrices were tested together with conventional and modified hESC culture media,human foreskin fibroblast-conditioned culture medium,chemically defined medium,TeSR1,and modified TeSR1 media. The results showed the undefined,xenogeneic Matrigel to be a superior matrix for hESC culture compared with the purified human ECM proteins,serum matrices,and the biomaterials tested. A long-term,feeder cell-free culture system was successful on Matrigel in combination with mTeSR1 culture medium,but a xeno-free,fully defined,and reproducible feeder cell-free hESC culture method still remains to be developed. View Publication

Recently it has been demonstrated that CD30 expression was rather specific for transformed than for normal human ES cells and therefore CD30 maybe suggested as a potential marker for human ES cells bearing chromosomal abnormalities. Using immunohistochemistry and RT-PCR analysis we examined �?¡D30 expression in 10 hESCs lines with normal and abberant karyotypes. All hESC lines expressed CD30 antigen and RNA in undifferentiated state whether cell line beared chromosomal abnormalities or not. In contrast to previous notions our data demonstrate that CD30 could be considered as marker of undifferentiated hESCs without respect to karyotype changes. View Publication

Development of non-invasive and accurate methods to track cell fate after delivery will greatly expedite transition of embryonic stem (ES) cell therapy to the clinic. In this protocol,we describe the in vivo monitoring of stem cell survival,proliferation and migration using reporter genes. We established stable ES cell lines constitutively expressing double fusion (DF; enhanced green fluorescent protein and firefly luciferase) or triple fusion (TF; monomeric red fluorescent protein,firefly luciferase and herpes simplex virus thymidine kinase (HSVtk)) reporter genes using lentiviral transduction. We used fluorescence-activated cell sorting to purify these populations in vitro,bioluminescence imaging and positron emission tomography (PET) imaging to track them in vivo and fluorescence immunostaining to confirm the results ex vivo. Unlike other methods of cell tracking,such as iron particle and radionuclide labeling,reporter genes are inherited genetically and can be used to monitor cell proliferation and survival for the lifetime of transplanted cells and their progeny. View Publication