技术资料

BACKGROUND: Embryonic stem (ES) cells self-renew as coherent colonies in which cells maintain tight cell-cell contact. Although intercellular communications are essential to establish the basis of cell-specific identity,molecular mechanisms underlying intrinsic cell-cell interactions in ES cells at the signaling level remain underexplored.backslashnbackslashnMETHODOLOGY/PRINCIPAL FINDINGS: Here we show that endogenous Rho signaling is required for the maintenance of cell-cell contacts in ES cells. siRNA-mediated loss of function experiments demonstrated that Rock,a major effector kinase downstream of Rho,played a key role in the formation of cell-cell junctional assemblies through regulation of myosin II by controlling a myosin light chain phosphatase. Chemical engineering of this signaling axis by a Rock-specific inhibitor revealed that cell-cell adhesion was reversibly controllable and dispensable for self-renewal of mouse ES cells as confirmed by chimera assay. Furthermore,a novel culture system combining a single synthetic matrix,defined medium,and the Rock inhibitor fully warranted human ES cell self-renewal independent of animal-derived matrices,tight cell contacts,or fibroblastic niche-forming cells as determined by teratoma formation assay.backslashnbackslashnCONCLUSIONS/SIGNIFICANCE: These findings demonstrate an essential role of the Rho-Rock-Myosin signaling axis for the regulation of basic cell-cell communications in both mouse and human ES cells,and would contribute to advance in medically compatible xeno-free environments for human pluripotent stem cells. View Publication

Defined growth conditions are essential for many applications of human embryonic stem cells (hESC). Most defined media are presently used in combination with Matrigel,a partially defined extracellular matrix (ECM) extract from mouse sarcoma. Here,we defined ECM requirements of hESC by analyzing integrin expression and ECM production and determined integrin function using blocking antibodies. hESC expressed all major ECM proteins and corresponding integrins. We then systematically replaced Matrigel with defined medium supplements and ECM proteins. Cells attached efficiently to natural human vitronectin,fibronectin,and Matrigel but poorly to laminin + entactin and collagen IV. Integrin-blocking antibodies demonstrated that alphaVbeta5 integrins mediated adhesion to vitronectin,alpha5beta1 mediated adhesion to fibronectin,and alpha6beta1 mediated adhesion to laminin + entactin. Fibronectin in feeder cell-conditioned medium partially supported growth on all natural matrices,but in defined,nonconditioned medium only Matrigel or (natural and recombinant) vitronectin was effective. Recombinant vitronectin was the only defined functional alternative to Matrigel,supporting sustained self-renewal and pluripotency in three independent hESC lines. View Publication

Cdx1,Cdx2,and Cdx4 comprise the caudal-like Cdx gene family in mammals,whose homologues regulate hematopoietic development in zebrafish. Previously,we reported that overexpression of Cdx4 enhances hematopoietic potential from murine embryonic stem cells (ESCs). Here we compare the effect of ectopic Cdx1,Cdx2,and Cdx4 on the differentiation of murine ESC-derived hematopoietic progenitors. The 3 Cdx genes differentially influence the formation and differentiation of hematopoietic progenitors within a CD41(+)c-kit(+) population of embryoid body (EB)-derived cells. Cdx1 and Cdx4 enhance,whereas Cdx2 strongly inhibits,the hematopoietic potential of CD41(+)ckit(+) EB-derived cells,changes that are reflected by effects on hematopoietic lineage-specific and Hox gene expression. When we subject stromal cell and colony assay cultures of EB-derived hematopoietic progenitors to ectopic expression of Cdx genes,Cdx4 dramatically enhances,whereas Cdx1 and Cdx2 both inhibit hematopoietic activity,probably by blocking progenitor differentiation. These data demonstrate distinct effects of Cdx genes on hematopoietic progenitor formation and differentiation,insights that we are using to facilitate efforts at in vitro culture of hematopoietic progenitors from ESC. The behavior of Cdx genes in vitro suggests how derangement of these developmental regulators might contribute to leukemogenesis. View Publication

Pluripotency pertains to the cells of early embryos that can generate all of the tissues in the organism. Embryonic stem cells are embryo-derived cell lines that retain pluripotency and represent invaluable tools for research into the mechanisms of tissue formation. Recently,murine fibroblasts have been reprogrammed directly to pluripotency by ectopic expression of four transcription factors (Oct4,Sox2,Klf4 and Myc) to yield induced pluripotent stem (iPS) cells. Using these same factors,we have derived iPS cells from fetal,neonatal and adult human primary cells,including dermal fibroblasts isolated from a skin biopsy of a healthy research subject. Human iPS cells resemble embryonic stem cells in morphology and gene expression and in the capacity to form teratomas in immune-deficient mice. These data demonstrate that defined factors can reprogramme human cells to pluripotency,and establish a method whereby patient-specific cells might be established in culture. View Publication

Mechanisms of lymphoid and myeloid lineage choice by hemopoietic stem cells remain unclear. In this study we show that the multipotent progenitor (MPP) population,which is immediately downstream of hemopoietic stem cells,is heterogeneous and can be subdivided in terms of VCAM-1 expression. VCAM-1(+) MPPs were fully capable of differentiating into both lymphoid and myeloid lineages. In contrast,VCAM-1(-) MPPs gave rise to lymphocytes predominately in vivo. T and B cell development from VCAM-1(-) MPPs was 1 wk faster than that from VCAM-1(+) MPPs. Furthermore,VCAM-1(+) MPPs gave rise to common myeloid progenitors and VCAM-1(-) MPPs in vivo,indicating that VCAM-1(-) MPPs are progenies of VCAM-1(+) MPPs. VCAM-1(-) MPPs,in turn,developed into lymphoid lineage-restricted common lymphoid progenitors. These results establish a hierarchy of developmental relationship between MPP subsets and lymphoid and myeloid progenitors. In addition,VCAM-1(+) MPPs may represent the branching point between the lymphoid and myeloid lineages. View Publication

In this study we dissected retinal organoid morphogenesis in human embryonic stem cell (hESC)-derived cultures and established a convenient method for isolating large quantities of retinal organoids for modeling human retinal development and disease. Epithelialized cysts were generated via floating culture of clumps of Matrigel/hESCs. Upon spontaneous attachment and spreading of the cysts,patterned retinal monolayers with tight junctions formed. Dispase-mediated detachment of the monolayers and subsequent floating culture led to self-formation of retinal organoids comprising patterned neuroretina,ciliary margin,and retinal pigment epithelium. Intercellular adhesion-dependent cell survival and ROCK-regulated actomyosin-driven forces are required for the self-organization. Our data supports a hypothesis that newly specified neuroretina progenitors form characteristic structures in equilibrium through minimization of cell surface tension. In long-term culture,the retinal organoids autonomously generated stratified retinal tissues,including photoreceptors with ultrastructure of outer segments. Our system requires minimal manual manipulation,has been validated in two lines of human pluripotent stem cells,and provides insight into optic cup invagination in vivo. View Publication

Differentiation of pluripotent embryonic stem (ES) cells is associated with expression of fate-specifying gene products. Coordinated development,however,must involve modifying factors that enable differentiation and growth to adjust in response to local microenvironmental determinants. We report here that the ephrin receptor,EphB4,known to be spatially restricted in expression and critical for organized vessel formation,modifies the rate and magnitude of ES cells acquiring genotypic and phenotypic characteristics of mesodermal tissues. Hemangioblast,blood cell,cardiomyocyte,and vascular differentiation was impaired in EphB4-/- ES cells in conjunction with decreased expression of mesoderm-associated,but not neuroectoderm-associated,genes. Therefore,EphB4 modulates the response to mesoderm induction signals. These data add differentiation kinetics to the known effects of ephrin receptors on mammalian cell migration and adhesion. We propose that modifying sensitivity to differentiation cues is a further means for ephrin receptors to contribute to tissue patterning and organization. View Publication

We have observed karyotypic changes involving the gain of chromosome 17q in three independent human embryonic stem (hES) cell lines on five independent occasions. A gain of chromosome 12 was seen occasionally. This implies that increased dosage of chromosome 17q and 12 gene(s) provides a selective advantage for the propagation of undifferentiated hES cells. These observations are instructive for the future application of hES cells in transplantation therapies in which the use of aneuploid cells could be detrimental. View Publication

Differentiating embryonic stem (ES) cells are an increasingly important source of hematopoietic progenitors,useful for both basic research and clinical applications. Besides their characterization in colony assays,protocols exist for the cultivation of lymphoid,myeloid,and erythroid cells. With the possible exception of mast cells,however,long-term expansion of pure hematopoietic progenitors from ES cells has not been possible without immortalization caused by overexpression of exogenous genes. Here,we describe for the first time an efficient yet easy strategy to generate mass cultures of pure,immature erythroid progenitors from mouse ES cells (ES-EPs),using serum-free medium plus recombinant cytokines and hormones. ES-EPs represent long-lived,adult,definitive erythroid progenitors that resemble immature erythroid cells expanding in vivo during stress erythropoiesis. When exposed to terminal differentiation conditions,ES-EPs differentiated into mature,enucleated erythrocytes. Importantly,ES-EPs injected into mice did not exhibit tumorigenic potential but differentiated into normal erythrocytes. Both the virtually unlimited supply of cells and the defined culture conditions render our system a valuable tool for the analysis of factors influencing proliferation and maturation of erythroid progenitors. In addition,the system allows detailed characterization of processes during erythroid proliferation and differentiation using wild-type (wt) and genetically modified ES cells. View Publication

STUDY HYPOTHESIS Does a preferential X chromosome inactivation (XCI) pattern exist in female human pluripotent stem cells (hPSCs) and does the pattern change during long-term culture or upon differentiation? STUDY FINDING We identified two independent phenomena that lead to aberrant XCI patterns in female hPSC: a rapid loss of histone H3 lysine 27 trimethylation (H3K27me3) and long non-coding X-inactive specific transcript (XIST) expression during culture,often accompanied by erosion of XCI-specific methylation,and a frequent loss of random XCI in the cultures. WHAT IS KNOWN ALREADY Variable XCI patterns have been reported in female hPSC,not only between different hPSC lines,but also between sub-passages of the same cell line,however the reasons for this variability remain unknown. Moreover,while non-random XCI-linked DNA methylation patterns have been previously reported,their origin and extent have not been investigated. STUDY DESIGN,SAMPLES/MATERIALS,METHODS We investigated the XCI patterns in 23 human pluripotent stem cell (hPSC) lines,during long-term culture and after differentiation,by gene expression analysis,histone modification assessment and study of DNA methylation. The presence and location of H3K27me3 was studied by immunofluorescence,XIST expression by real-time PCR,and mono- or bi-allelic expression of X-linked genes was studied by sequencing of cDNA. XCI-specific DNA methylation was analysed using methylation-sensitive restriction and PCR,and more in depth by massive parallel bisulphite sequencing. MAIN RESULTS AND THE ROLE OF CHANCE All hPSC lines showed XCI,but we found a rapid loss of XCI marks during the early stages of in vitro culture. While this loss of XCI marks was accompanied in several cases by an extensive erosion of XCI-specific methylation,it did not result in X chromosome reactivation. Moreover,lines without strong erosion of methylation frequently displayed non-random DNA methylation,which occurred independently from the loss of XCI marks. This bias in X chromosome DNA methylation did not appear as a passenger event driven by clonal culture take-over of chromosome abnormalities and was independent of the parental origin of the X chromosome. Therefore,we suggest that a culture advantage conferred by alleles on the X chromosome or by XCI-related mechanisms may be at the basis of this phenomenon. Finally,differentiated populations inherited the aberrant XCI patterns from the undifferentiated cells they were derived from. LIMITATIONS,REASONS FOR CAUTION All hPSC lines in this study were cultured in highly similar conditions. Our results may therefore be specific for these conditions and alternative culture conditions might lead to different findings. Our findings are only a first step towards elucidating the molecular events leading to the phenomena we observed. WIDER IMPLICATIONS OF THE FINDINGS Our results highlight the significant extent of aberrant XCI in female hPSC. The fact that these aberrations are inherited by the differentiated progeny may have a significant impact on downstream research and clinical uses of hPSC. In order to achieve the full potential of hPSC,more insight into the XCI status and its stability in hPSC and its effect on the properties of the differentiated progeny is needed. LARGE SCALE DATA Not applicable. STUDY FUNDING AND COMPETING INTERESTS Our research is supported by grants from the Research Foundation - Flanders (FWO-Vlaanderen,grant 1502512N),Generalitat de Catalunya (2014SGR-005214) and the Methusalem grant of the Research Council of the Vrije Universiteit Brussel,on name of K.S. L.V.H. is funded by EMBO (ALTF 701-2013). The authors declare no potential conflict of interest. View Publication

Definitive mesoderm arises from a bipotent mesendodermal population,and to study processes controlling its development at this stage,embryonic stem (ES) cells can be employed. SHB (Src homology 2 protein in beta-cells) is an adapter protein previously found to be involved in ES cell differentiation to mesoderm. To further study the role of SHB in this context,we have established ES cell lines deficient for one (SHB+/-) or both SHB alleles (SHB-/-). Differentiating embryoid bodies (EBs) derived from these ES cell lines were used for gene expression analysis. Alternatively,EBs were stained for the blood vessel marker CD31. For hematopoietic differentiation,EBs were differentiated in methylcellulose. SHB-/- EBs exhibited delayed down-regulation of the early mesodermal marker Brachyury. Later mesodermal markers relatively specific for the hematopoietic,vascular,and cardiac lineages were expressed at lower levels on day 6 or 8 of differentiation in EBs lacking SHB. The expression of vascular endothelial growth factor receptor-2 and fibroblast growth factor receptor-1 was also reduced in SHB-/- EBs. SHB-/- EBs demonstrated impaired blood vessel formation after vascular endothelial growth factor stimulation. In addition,the SHB-/- ES cells formed fewer blood cell colonies than SHB+/+ ES cells. It is concluded that SHB is required for appropriate hematopoietic and vascular differentiation and that delayed down-regulation of Brachyury expression may play a role in this context. View Publication

The amyloid-beta precursor protein (AbetaPP) is a ubiquitously expressed adhesion and neuritogenic protein whose processing has previously been shown to be regulated by reproductive hormones including the gonadotropin luteinizing hormone (LH) in human neuroblastoma cells. We report for the first time the expression of AbetaPP in human embryonic stem (hES) cells at the mRNA and protein levels. Using N- and C-terminal antibodies against AbetaPP,we detected both the mature and immature forms of AbetaPP as well as truncated variants ( approximately 53kDa,47kDa,and 29kDa) by immunoblot analyses. Expression of AbetaPP is regulated by both the stemness of the cells and pregnancy-associated hormones. Addition of human chorionic gonadotropin,the fetal equivalent of LH that is dramatically elevated during pregnancy,markedly increased the expression of all AbetaPP forms. These results indicate a critical molecular signaling link between the hormonal environment of pregnancy and the expression of AbetaPP in hES cells that is suggestive of an important function for this protein during early human embryogenesis prior to the formation of neural precursor cells. View Publication