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1.
Pluripotent stem cells exist in naive and primed states, epitomized by mouse embryonic stem cells (ESCs) and the developmentally more advanced epiblast stem cells (EpiSCs; ref. 1). In the naive state of ESCs, the genome has an unusual open conformation and possesses a minimum of repressive epigenetic marks. In contrast, EpiSCs have activated the epigenetic machinery that supports differentiation towards the embryonic cell types. The transition from naive to primed pluripotency therefore represents a pivotal event in cellular differentiation. But the signals that control this fundamental differentiation step remain unclear. We show here that paracrine and autocrine Wnt signals are essential self-renewal factors for ESCs, and are required to inhibit their differentiation into EpiSCs. Moreover, we find that Wnt proteins in combination with the cytokine LIF are sufficient to support ESC self-renewal in the absence of any undefined factors, and support the derivation of new ESC lines, including ones from non-permissive mouse strains. Our results not only demonstrate that Wnt signals regulate the naive-to-primed pluripotency transition, but also identify Wnt as an essential and limiting ESC self-renewal factor.  相似文献   

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未受精的孤雌胚胎衍生的孤雌胚胎干细胞(parthenogenetic embryonic stem cells,pESCs),具有与胚胎干细胞(embryonic stem cells,ESCs)相似的多向分化和自我更新能力,且具备来.源广泛、获取高效及低致瘤性等优势,因此成为近年来的研究热点.该文概述了pESCs特殊...  相似文献   

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Cells with the desired phenotype and number are critical for regenerative medicine and tissue engineering. Uniparental parthenogenetic embryonic stem cells (pESCs) share fundamental properties with embryonic stem cells. This study aims to determine the viability of pESC-based tissue engineering for bone and cartilage reconstruction. The mouse pESCs were cultured in suspension to form embryoid bodies. An adherent cultivation approach was employed to obtain parthenogenetic embryonic mesenchymal stem cells (pMSCs) from the embryoid bodies. Then, the pMSCs were cultured in conditional media to differentiate into osteogenic and chondrogenic lineages. The pESC-derived osteoblasts and chondroblasts were seeded into coral and sodium alginate scaffolds, respectively. The cell-seeded scaffolds were implanted into dorsal subcutaneous pockets of nude mice to evaluate ectopic reconstruction of bone and cartilage. We demonstrated that pESCs display the capacity to differentiate into all three germ layers. The generated pMSCs were able to differentiate into osteogenic and chondrogenic lineages, which survived well after seeding into coral and alginate acid scaffolds. Six weeks after cell-scaffold implantation, gross inspection and histological examination revealed that ectopic bone and cartilage tissues had successfully regenerated in the specimen. According to the findings of this study, pESC derivatives have a high potential for bone and cartilage regeneration.  相似文献   

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孤雌胚胎干细胞(Parthenogenetic embryonic stem cells,pESCs)的遗传物质全部来源于母源基因组,因缺失父源基因而不具备四倍体补偿的能力。为了使pESCs也具备发育到个体的能力,呈现与受精卵来源ESCs类似的多能性,文中借助CRISPR/Cas9系统对孤雌来源的pESCs中的2个重要母源印迹基因的差异甲基化区域(Differentially methylated region,DMR)进行单等位基因敲除(H19-DMR,IG-DMR),获得双基因敲除的(DKO)pESCs。结果表明,pESCs虽然来源于母源基因组,但是其形态特征、多能干性标记分子的表达水平、体外神经分化能力与受精卵来源的ESCs基本一致。最后,通过基因修饰的DKOpESCs可以通过四倍体补偿获得发育到期的胎儿,表明经过印迹基因修饰的pESCs也具有发育到一个完整个体的多能性。从而为再生医学研究提供了一类具有主要组织相容性复合基因匹配且多能性良好的资源细胞。  相似文献   

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Wang S  Shen Y  Yuan X  Chen K  Guo X  Chen Y  Niu Y  Li J  Xu RH  Yan X  Zhou Q  Ji W 《The Journal of biological chemistry》2008,283(51):35929-35940
The pluripotency and self-renewal of embryonic stem cells (ESC) are regulated by a variety of cytokines/growth factors with some species differences. We reported previously that rabbit ESC (rESC) are more similar to primate ESC than to mouse ESC. However, the signaling pathways that regulate rESC self-renewal had not been identified. Here we show that inhibition of the transforming growth factor beta (TGFbeta), fibroblast growth factor (FGF), and canonical Wnt/beta-catenin (Wnt) pathways results in enhanced differentiation of rESC accompanied by down-regulation of Smad2/3 phosphorylation and beta-catenin expression and up-regulation of phosphorylation of Smad1 and beta-catenin. These results imply that the TGFbeta, FGF, and Wnt pathways are required for rESC self-renewal. Inhibition of the MAPK/ERK and PI3K/AKT pathways, which lie downstream of the FGF pathway, led to differentiation of rESC accompanied by down-regulation of phosphorylation of ERK1/2 or AKT, respectively. Long-term self-renewal of rESC could be achieved by adding a mixture of TGFbeta ligands (activin A, Nodal, or TGFbeta1) plus basic FGF (bFGF) and Noggin in the absence of serum and feeder cells. Our findings also suggest that there is a regulatory network consisting of the FGF, Wnt, and TGFbeta pathways that controls rESC pluripotency and self-renewal. We conclude that bFGF controls the stem cell properties of rESC both directly and indirectly through TGFbeta or other pathways, whereas the effect of Wnt on rESC might be mediated by the TGFbeta pathway.  相似文献   

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Most cell culture systems grow and spread as contact-inhibited monolayers on flat culture dishes, but the embryonic stem cell (ESC) is one of the cell phenotypes that prefer to self-organize as tightly packed three-dimensional (3D) colonies. ESC also readily form 3D cell aggregates, called embryoid bodies (EB) that partially mimic the spatial and temporal processes of the developing embryo. Here, the rationale for ESC aggregation, rather than “spreading” on gelatin-coated or mouse embryonic fibroblast (MEF)-coated dishes, is examined through the quantification of the expression levels of adhesion molecules on ESC and the calculation of the adhesive forces on ESC. Modeling each ESC as a dodecahedron, the adhesive force for each ESC-ESC binding was found to be 9.1 × 105 pN, whereas, the adhesive force for ESC-MEF binding was found to be an order of magnitude smaller at 7.9 × 104 pN. We also show that E-cadherin is the dominating molecule in the ESC-ESC adhesion and blocking E-cadherin leads to a significant reduction in colony formation. Here, we mathematically describe the preference for ESC to self-assemble into ESC-ESC aggregates and 3D colonies, rather than to bind and spread on gelatin or MEF-coated dishes, and have shown that these interactions are predominantly due to E-cadherin expression on ESC.Key words: embryonic stem cells, stem cell morphology, E-cadherin, beta-1 integrin, cell adhesive forces, quantitative flow cytometry  相似文献   

7.
Tcf3 governs stem cell features and represses cell fate determination in skin   总被引:11,自引:0,他引:11  
Nguyen H  Rendl M  Fuchs E 《Cell》2006,127(1):171-183
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潘光锦  裴端卿 《生命科学》2007,19(4):372-377
胚胎干细胞(ES细胞)来源于早期发育的胚胎,具有分化为任何细胞类型的多能性,因此具有巨大的基础研究及潜在的应用前景.目前认为ES细胞主要通过一些外源性信号分子的作用及某些重要的内源性转录因子的表达共同起作用来达到其维持多能性的目的.外源性信号分子LIF、BMP4以及Wnt等介导的信号传导通路与内源性转录因子Oct4、Nanog、Sox2、FoxD3等共同起作用来抑制那些促进ES细胞分化的基因表达和激活那些有助于维持ES细胞多能性维持的基因表达,进而形成一个相互调控和依存的基因调控网络共同维持ES细胞的多能性.  相似文献   

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Embryonic stem cell (ESC) pluripotency is orchestrated by distinct signaling pathways that are often targeted to maintain ESC self-renewal or their differentiation to other lineages. We showed earlier that inhibition of PKC signaling maintains pluripotency in mouse ESCs. Therefore, in this study, we investigated the importance of protein kinase C signaling in the context of rat ESC (rESC) pluripotency. Here we show that inhibition of PKC signaling is an efficient strategy to establish and maintain pluripotent rESCs and to facilitate reprogramming of rat embryonic fibroblasts to rat induced pluripotent stem cells. The complete developmental potential of rESCs was confirmed with viable chimeras and germ line transmission. Our molecular analyses indicated that inhibition of a PKCζ-NF-κB-microRNA-21/microRNA-29 regulatory axis contributes to the maintenance of rESC self-renewal. In addition, PKC inhibition maintains ESC-specific epigenetic modifications at the chromatin domains of pluripotency genes and, thereby, maintains their expression. Our results indicate a conserved function of PKC signaling in balancing self-renewal versus differentiation of both mouse and rat ESCs and indicate that targeting PKC signaling might be an efficient strategy to establish ESCs from other mammalian species.  相似文献   

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目的:探讨鸡胚胎干细胞(ESC)和精原干细胞(SSCs)在基因表达水平上的差异.方法:传至二代的ESC和SSCs,采用免疫荧光和碱性磷酸酶检测法联合鉴定其干细胞特性,RT-PCR方法检测两者相关基因的表达差异.结果:两种处于未分化状态时的干细胞基因表达存在差异:未分化的ESC表达基因GDF3基因和Nanog基因;SSCs表达特定基因c-kit、Cvh和Stra8基因.结论:两种干细胞在基因表达水平上有差异,为ESC与SSCs在基因水平上的鉴定提供参考依据.  相似文献   

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Recent technological advances in cell reprogramming by generation of induced pluripotent stem cells (iPSC) offer major perspectives in disease modelling and future hopes for providing novel stem cells sources in regenerative medicine. However, research on iPSC still requires refining the criteria of the pluripotency stage of these cells and exploration of their equivalent functionality to human embryonic stem cells (ESC). We report here on the use of infrared microspectroscopy to follow the spectral modification of somatic cells during the reprogramming process. We show that induced pluripotent stem cells (iPSC) adopt a chemical composition leading to a spectral signature indistinguishable from that of embryonic stem cells (ESC) and entirely different from that of the original somatic cells. Similarly, this technique allows a distinction to be made between partially and fully reprogrammed cells. We conclude that infrared microspectroscopy signature is a novel methodology to evaluate induced pluripotency and can be added to the tests currently used for this purpose.  相似文献   

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