Heparan sulfate regulates self-renewal and pluripotency of embryonic stem cells

Embryonic stem (ES) cell self-renewal and pluripotency are maintained by several signaling cascades and by expression of intrinsic factors, such as Oct3/4 and Nanog. The signaling cascades are activated by extrinsic factors, such as leukemia inhibitory factor, bone morphogenic protein, and Wnt. However, the mechanism that regulates extrinsic signaling in ES cells is unknown. Heparan sulfate (HS) chains are ubiquitously present as the cell surface proteoglycans and are known to play crucial roles in regulating several signaling pathways. Here we investigated whether HS chains on ES cells are involved in regulating signaling pathways that are important for the maintenance of ES cells. RNA interference-mediated knockdown of HS chain elongation inhibited mouse ES cell self-renewal and induced spontaneous differentiation of the cells into extraembryonic endoderm. Furthermore, autocrine/paracrine Wnt/beta-catenin signaling through HS chains was found to be required for the regulation of Nanog expression. We propose that HS chains are important for the extrinsic signaling required for mouse ES cell self-renewal and pluripotency.     

n-Butylidenephthalide (BP) Maintains Stem Cell Pluripotency by Activating Jak2/Stat3 Pathway and Increases the Efficiency of iPS Cells Generation

In 2006, induced pluripotent stem (iPS) cells were generated from somatic cells by introducing Oct4, Sox2, c-Myc and Klf4. The original process was inefficient; maintaining the pluripotency of embryonic stem (ES) and iPS cell cultures required an expensive reagent-leukemia induced factor (LIF). Our goal is to find a pure compound that not only maintains ES and iPS cell pluripotency, but also increases iPS cell generation efficiency. From 15 candidate compounds we determined that 10 μg/ml n-Butylidenephthalide (BP), an Angelica sinensis extract, triggers the up-regulation of Oct4 and Sox2 gene expression levels in MEF cells. We used ES and iPS cells treated with different concentrations of BP to test its usefulness for maintaining stem cell pluripotency. Results indicate higher expression levels of several stem cell markers in BP-treated ES and iPS cells compared to controls that did not contain LIF, including alkaline phosphatase, SSEA1, and Nanog. Embryoid body formation and differentiation results confirm that BP containing medium culture was capable of maintaining ES cell pluripotency after six time passage. Microarray analysis data identified PPAR, ECM, and Jak-Stat signaling as the top three deregulated pathways. We subsequently determined that phosphorylated Jak2 and phosphorylated Stat3 protein levels increased following BP treatment and suppressed with the Jak2 inhibitor, AG490. The gene expression levels of cytokines associated with the Jak2-Stat3 pathway were also up-regulated. Last, we used pou5f1-GFP MEF cells to test iPS generation efficiency following BP treatment. Our data demonstrate the ability of BP to maintain stem cell pluripotency via the Jak2-Stat3 pathway by inducing cytokine expression levels, at the same time improving iPS generation efficiency.     

Effect of dual-specificity protein phosphatase 5 on pluripotency maintenance and differentiation of mouse embryonic stem cells

The MAPK/Erk signaling pathway is considered as a key regulator of the pluripotency and differentiation of embryonic stem (ES) cells, while dual-specificity protein phosphatases (DUSPs) are negative regulators of MAPK. Although DUSPs are potential embryogenesis regulators, their functions in the regulation of ES cell differentiation have not been demonstrated. The present study revealed that Dusp5 was expressed in mouse ES (mES) cells and that its expression was correlated with the undifferentiated state of these cells. Exogenous Dusp5 expression enhanced mES cell clonogenicity and suppressed mES cell differentiation by maintaining Nanog expression via the inhibition of the Erk pathway. Following Dusp5 knockdown, Nanog and Oct4 expression was significantly attenuated and the Erk signaling pathway was activated. Additionally, EBs derived from Dusp5 knockdown mES cells (KDEBs) exhibited a weak adherence capability, very little outgrowth, and a reduction in the number of epithelial-like cells. The expression of Gata6 (an endodermal marker) and Flk1 and Twist1 (mesodermal markers) was inhibited in KDEBs, which indicated that Dusp5 influenced the differentiation of these germ layers during EB development. Collectively, this study suggested that Dusp5 plays an important role in the maintenance of pluripotency in mES cells, and that Dusp5 may be required for EB development.     

Intrinsic properties and external factors determine the differentiation bias of human embryonic stem cell lines

A major goal of human embryonic stem cell (hESC) research is to regulate differentiation through external means to generate specific cell types with high purity for regenerative medicine applications. Although all hESC lines express pluripotency‐associated genes, their differentiation ability to various lineages differs considerably. We have compared spontaneous differentiation propensity of the two hESC lines, RelicellhES1 and BG01. Spontaneous differentiation of hESC lines grown in different media conditions was followed by differentiation using two methods. Kinetic data generated by real‐time gene expression studies for differentiated cell types were analyzed, and confirmed at protein levels. Both cell lines showed upregulation of genes associated with the 3 germ layers, although stark contrast was evident in the magnitude of upregulation of lineage specific genes. A distinct difference was also found in the rate at which the pluripoteny factors, Oct‐4 and Nanog, were downregulated during differentiation. Once differentiation was initiated, both Oct‐4 and Nanog gene expression was drastically reduced in RelicellhES1, whereas a gradual decrease was observed in BG01. A clear trend is seen in RelicellhES1 to differentiate into neuroectodermal and mesenchymal lineages, whereas BG01 cells are more prone to mesoderm and endoderm development. In addition, suspension versus plated methods of cell culture significantly influenced the outcome of differentiation of certain types of cells. Results obtained by spontaneous differentiation of hESCs were also amplified by induced differentiation. Thus, differential rates of downregulation of pluripotency markers along with culture conditions seem to play an important role in determining the developmental bias of human ES cell lines.     

Nanog基因的功能与调控研究进展

胚胎干细胞的无限增殖能力和亚全能性决定了它在再生医学、新药开发及发育生物学基础研究中具有巨大的应用前景。探索维持胚胎干细胞亚全能性的因子及其网络的调控功能成为胚胎干细胞生物学研究的热点。已研究发现多个与维持胚胎干细胞亚全能性相关的基因如Oct4, Nanog, Sox2等,其中Nanog是2003年5月末发现的一个基因,它对维持胚胎干细胞亚全能性起关键性作用,能够独立于L1F/Stat3维持ICM和胚胎干细胞的亚全能性。几年来,Nanog的生物学功能及其与 Oct4, Sox2等亚全能性维持基因之间的相互作用关系已有较为深入的研究,并发现多个调控Nanog表达的转录因子,从而进一步明晰Nanog与已知调控胚胎发育的信号通路之间的关系。本文在综述Nanog基因的表达特征和功能的基础上、重点探讨Nanog基因表达调控以及Oct4, Sox2等亚全能性维持基因之间的相互作用关系,并对未来的研究趋势予以展望。