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YAP 非细胞自主促进小鼠细胞的多能性诱导。

YAP Non-cell-autonomously Promotes Pluripotency Induction in Mouse Cells.

机构信息

Cell Biology Department, Yale University, 10 Amistad Street, Room 131H, New Haven, CT 06520, USA; Yale Stem Cell Center, Yale University, New Haven, CT 06520, USA.

Cell Biology Department, Yale University, 10 Amistad Street, Room 131H, New Haven, CT 06520, USA; Yale Stem Cell Center, Yale University, New Haven, CT 06520, USA.

出版信息

Stem Cell Reports. 2020 Apr 14;14(4):730-743. doi: 10.1016/j.stemcr.2020.03.006. Epub 2020 Apr 2.

DOI:10.1016/j.stemcr.2020.03.006
PMID:32243844
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7160372/
Abstract

Yes-associated protein (YAP) is known to promote the stemness of multiple stem cell types, including pluripotent stem cells, while also antagonizing pluripotency during early embryogenesis. How YAP accomplishes these distinct functions remains unclear. Here, we report that, depending on the specific cells in which it is expressed, YAP could exhibit opposing effects on pluripotency induction from mouse somatic cells. Specifically, YAP inhibits pluripotency induction cell-autonomously but promotes it non-cell-autonomously. For its non-cell-autonomous role, YAP alters the expression of many secreted and matricellular proteins, including CYR61. YAP's non-cell-autonomous promoting effect could be recapitulated by recombinant CYR61 and abrogated by CYR61 depletion. Thus, we define a YAP-driven effect on enhancing pluripotency induction largely mediated by CYR61. Our work highlights the importance of considering the distinct contributions from heterologous cell types in deciphering cell fate control mechanisms and calls for careful re-examination of the co-existing bystander cells in complex cultures and tissues.

摘要

Yes 相关蛋白 (YAP) 已知可促进多种干细胞类型的干性,包括多能干细胞,同时在早期胚胎发生过程中拮抗多能性。YAP 如何完成这些不同的功能仍不清楚。在这里,我们报告说,取决于其表达的特定细胞,YAP 可能对来自小鼠体细胞的多能性诱导表现出相反的作用。具体而言,YAP 自主抑制多能性诱导,但非自主促进多能性诱导。对于其非自主作用,YAP 改变了许多分泌和基质细胞蛋白的表达,包括 CYR61。YAP 的非自主促进作用可以通过重组 CYR61 再现,并通过 CYR61 耗竭消除。因此,我们定义了 YAP 驱动的增强多能性诱导的作用,主要由 CYR61 介导。我们的工作强调了在破译细胞命运控制机制时考虑异质细胞类型的不同贡献的重要性,并呼吁仔细重新检查复杂培养物和组织中并存的旁观者细胞。

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