H3K27me3-mediated epigenetic regulation in pluripotency maintenance and lineage differentiation

Cell insight Pub Date : 2024-06-27 DOI:10.1016/j.cellin.2024.100180

Liwen Jiang , Linfeng Huang , Wei Jiang

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Abstract

Cell fate determination is an intricate process which is orchestrated by multiple regulatory layers including signal pathways, transcriptional factors, epigenetic modifications, and metabolic rewiring. Among the sophisticated epigenetic modulations, the repressive mark H3K27me3, deposited by PRC2 (polycomb repressive complex 2) and removed by demethylase KDM6, plays a pivotal role in mediating the cellular identity transition through its dynamic and precise alterations. Herein, we overview and discuss how H3K27me3 and its modifiers regulate pluripotency maintenance and early lineage differentiation. We primarily highlight the following four aspects: 1) the two subcomplexes PRC2.1 and PRC2.2 and the distribution of genomic H3K27 methylation; 2) PRC2 as a critical regulator in pluripotency maintenance and exit; 3) the emerging role of the eraser KDM6 in early differentiation; 4) newly identified additional factors influencing H3K27me3. We present a comprehensive insight into the molecular principles of the dynamic regulation of H3K27me3, as well as how this epigenetic mark participates in pluripotent stem cell-centered cell fate determination.

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H3K27me3 介导的表观遗传调控在多能性维持和品系分化中的作用

细胞命运的决定是一个错综复杂的过程，由信号通路、转录因子、表观遗传修饰和代谢重新布线等多个调控层精心策划。在复杂的表观遗传修饰中，由 PRC2（多聚胞抑制复合体 2）沉积并由去甲基化酶 KDM6 去除的抑制性标记 H3K27me3 通过其动态和精确的改变在介导细胞身份转换中发挥着关键作用。在此，我们将概述并讨论 H3K27me3 及其修饰物如何调控多能性维持和早期系分化。我们主要强调以下四个方面：1）PRC2.1 和 PRC2.2 这两个亚复合物以及基因组 H3K27 甲基化的分布；2）PRC2 作为多能性维持和退出的关键调控因子；3）侵蚀因子 KDM6 在早期分化中的新作用；4）新发现的影响 H3K27me3 的其他因素。我们对H3K27me3动态调控的分子原理以及这一表观遗传标记如何参与多能干细胞为中心的细胞命运决定提出了全面的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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