MicroRNAs 调控人胚胎干细胞中的 p21(Waf1/Cip1) 蛋白表达和 DNA 损伤反应。

MicroRNAs regulate p21(Waf1/Cip1) protein expression and the DNA damage response in human embryonic stem cells.

机构信息

Department of Histology and Embryology, Faculty of Medicine, Masaryk University, Kamenice 3/A1, Brno, Czech Republic.

出版信息

Stem Cells. 2012 Jul;30(7):1362-72. doi: 10.1002/stem.1108.

Abstract

Studies of human embryonic stem cells (hESCs) commonly describe the nonfunctional p53-p21 axis of the G1/S checkpoint pathway with subsequent relevance for cell cycle regulation and the DNA damage response (DDR). Importantly, p21 mRNA is clearly present and upregulated after the DDR in hESCs, but p21 protein is not detectable. In this article, we provide evidence that expression of p21 protein is directly regulated by the microRNA (miRNA) pathway under standard culture conditions and after DNA damage. The DDR in hESCs leads to upregulation of tens of miRNAs, including hESC-specific miRNAs such as those of the miR-302 family, miR-371-372 family, or C19MC miRNA cluster. Most importantly, we show that the hESC-enriched miRNA family miR-302 (miR-302a, miR-302b, miR-302c, and miR-302d) directly contributes to regulation of p21 expression in hESCs and, thus, demonstrate a novel function for miR-302s in hESCS. The described mechanism elucidates the role of miRNAs in regulation of important molecular pathway governing the G1/S transition checkpoint before as well as after DNA damage.

摘要

人类胚胎干细胞（hESC）的研究通常描述 G1/S 检查点途径的无功能 p53-p21 轴，随后与细胞周期调控和 DNA 损伤反应（DDR）相关。重要的是，hESC 中的 DDR 后 p21 mRNA 明显存在并上调，但 p21 蛋白不可检测。在本文中，我们提供证据表明，p21 蛋白的表达在标准培养条件下和 DNA 损伤后直接受到 microRNA（miRNA）途径的调节。hESC 的 DDR 导致数十种 miRNA 的上调，包括 hESC 特异性 miRNA，如 miR-302 家族、miR-371-372 家族或 C19MC miRNA 簇的 miRNA。最重要的是，我们表明 hESC 丰富的 miRNA 家族 miR-302（miR-302a、miR-302b、miR-302c 和 miR-302d）直接参与 hESC 中 p21 表达的调节，从而证明了 miR-302s 在 hESC 中的新功能。所描述的机制阐明了 miRNA 在调控 G1/S 过渡检查点之前和之后的 DNA 损伤中重要分子途径的作用。

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MicroRNAs 调控人胚胎干细胞中的 p21(Waf1/Cip1) 蛋白表达和 DNA 损伤反应。

MicroRNAs regulate p21(Waf1/Cip1) protein expression and the DNA damage response in human embryonic stem cells.

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