基质细胞间充质对人胚胎干细胞肝细胞分化的抑制作用被Wnt3a处理所克服。

Judy Fletcher, Wei Cui, Kay Samuel, James R Black, Zara Hannoun, Ian S Currie, John D Terrace, Catherine Payne, Celine Filippi, Philip Newsome, Stuart J Forbes, James A Ross, John P Iredale, David C Hay
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引用次数: 34

摘要

多能干细胞来源于着床前胚胎的内部细胞群,并在体外形成三种生殖谱系,显示出胚胎创始细胞的能力。细胞生态位在干细胞的维持和分化中起着重要的作用。如果没有提供关键细胞-细胞接触、可溶性介质和细胞外基质的特殊微环境,干细胞的功能通常有限。我们对Wnt信号,特别是Wnt3a,在体外人类胚胎干细胞(hESC)向肝内胚层分化过程中所起的作用感兴趣。hESC向肝内胚层的分化在纯干细胞群体中是有效的。然而,在年轻的hESC系中,产生基质细胞间充质,我们的模型效率非常低。在肝细胞分化开始之前,用Wnt3a预处理hESCs可以逆转基质的负面作用。Wnt3a预处理恢复了hESC向肝内胚层的高效分化。这些研究是了解肝细胞从hESCs分化和细胞生态位在体外所起作用的重要一步。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The inhibitory role of stromal cell mesenchyme on human embryonic stem cell hepatocyte differentiation is overcome by Wnt3a treatment.

Pluripotent stem cells are derived from the inner cell mass of preimplantation embryos, and display the ability of the embryonic founder cells by forming all three germ lineages in vitro. It is well established that the cellular niche plays an important role in stem cell maintenance and differentiation. Stem cells generally have limited function without the specialized microenvironment of the niche that provides key cell-cell contact, soluble mediators, and extracellular matrices. We were interested in the role that Wnt signaling, in particular Wnt3a, played in human embryonic stem cell (hESC) differentiation to hepatic endoderm in vitro. hESC differentiation to hepatic endoderm was efficient in pure stem cell populations. However, in younger hESC lines, generating stromal cell mesenchyme, our model was very inefficient. The negative effect of stroma could be reversed by pretreating hESCs with Wnt3a prior to the onset of hepatocyte differentiation. Wnt3a pretreatment reinstated efficient hESC differentiation to hepatic endoderm. These studies represent an important step in understanding hepatocyte differentiation from hESCs and the role played by the cellular niche in vitro.

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