技术资料

Dax-1 (Nr0b1) is an orphan member of the nuclear hormone receptor superfamily that has a key role in adrenogonadal development and function. Recent studies have also implicated Dax-1 in the transcriptional network controlling embryonic stem (ES) cell pluripotency. Here,we show that Dax-1 expression is affected by differentiating treatments and pharmacological activation of beta-catenin-dependent transcription in mouse ES cells. Furthermore,Dax-1 knockdown induced upregulation of multilineage differentiation markers,and produced enhanced differentiation and defects in ES viability and proliferation. Through RNA interference and transcriptome analysis,we have identified genes regulated by Dax-1 in mouse ES cells at 24 and 48 hours after knockdown. Strikingly,the great majority of these genes are upregulated,showing that the prevalent function of Dax-1 is to act as a transcriptional repressor in mouse ES cells,as confirmed by experiments using the Gal4 system. Genes involved in tissue differentiation and control of proliferation are significantly enriched among Dax-1-regulated transcripts. These data show that Dax-1 is an essential element in the molecular circuit involved in the maintenance of ES cell pluripotency and have implications for the understanding of stem cell function in both physiological (adrenal gland) and clinical (Ewing tumors) settings where Dax-1 plays a pivotal role in development and pathogenesis,respectively. View Publication

Lineage specific human embryonic stem cell (hESC) reporter cell line is a versatile tool for biological studies on real time monitoring of differentiation,physiological and biochemical features of special cell types and pathological mechanism of disease. Here we report the generation of ChAT-zsGreen reporter hESC line that express zsGreen under the control of the choline acetyltransferase (ChAT) promoter using CRISPR (Clustered Regularly Interspersed Short Palindromic Repeats)/Cas9 system. We show that the ChAT-zsGreen hESC reporter cell lines retain the features of undifferentiated hESC. After cholinergic neuronal differentiation,cholinergic neurons were clearly labeled with green fluorescence protein (zsGreen). The ChAT-zsGreen reporter hESC lines are invaluable not only for the monitoring cholinergic neuronal differentiation but also for study physiological and biochemical hallmarks of cholinergic neurons. View Publication

Efficient cryopreservation of human pluripotent stem cells (hPSCs) in chemically defined,xeno-free conditions is highly desirable for medical research and clinical applications such as cell-based therapies. Here we present a simple and effective slow freezing-rapid thawing protocol for the cryopreservation of feeder-free,single hPSCs. This cryopreservation protocol involves the supplementation of 10 % dimethyl sulfoxide (DMSO) and 10 $$M Rho-associated kinase inhibitor Y-27632 into two types of xeno-free,defined media supplements (Knockout Serum Replacement and TeSR2). High post-thaw cell recovery (˜90 %) and cell expansion (˜70 %) can be achieved using this protocol. The cryopreserved single cells retain the morphological characteristics of hPSCs and differentiation capabilities of pluripotent stem cells. View Publication

While the determination of the trophoblast lineage and the facilitation of placental morphogenesis by trophoblast interactions with other cells of the placenta are crucial components for the establishment of pregnancy,these processes are not tractable at the time of human implantation. Embryonic stem cells (ESCs) provide an embryonic surrogate to derive insights into these processes. In this review,we will summarize current paradigms which promote trophoblast differentiation from ESCs,and potential opportunities for their use to further define signals directing morphogenesis of the placenta following implantation of the embryo into the endometrium. View Publication

Recent reports on the characteristics of naive human pluripotent stem cells (hPSCs) obtained using independent methods differ. Naive hPSCs have been mainly derived by conversion from primed hPSCs or by direct derivation from human embryos rather than by somatic cell reprogramming. To provide an unbiased molecular and functional reference,we derived genetically matched naive hPSCs by direct reprogramming of fibroblasts and by primed-to-naive conversion using different naive conditions (NHSM,RSeT,5iLAF and t2iLGöY). Our results show that hPSCs obtained in these different conditions display a spectrum of naive characteristics. Furthermore,our characterization identifies KLF4 as sufficient for conversion of primed hPSCs into naive t2iLGöY hPSCs,underscoring the role that reprogramming factors can play for the derivation of bona fide naive hPSCs. View Publication