多梳抑制基因具有允许性增强子，可启动重编程。

Polycomb-repressed genes have permissive enhancers that initiate reprogramming.

机构信息

Department of Urology, Norris Comprehensive Cancer Center, Keck School of Medicine, University of Southern California, Los Angeles, CA 90033, USA.

出版信息

Cell. 2011 Dec 9;147(6):1283-94. doi: 10.1016/j.cell.2011.10.040.

DOI:10.1016/j.cell.2011.10.040

PMID:22153073

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3240866/

Abstract

Key regulatory genes, suppressed by Polycomb and H3K27me3, become active during normal differentiation and induced reprogramming. Using the well-characterized enhancer/promoter pair of MYOD1 as a model, we have identified a critical role for enhancers in reprogramming. We observed an unexpected nucleosome-depleted region (NDR) at the H3K4me1-enriched enhancer at which transcriptional regulators initially bind, leading to subsequent changes in the chromatin at the cognate promoter. Exogenous Myod1 activates its own transcription by binding first at the enhancer, leading to an NDR and transcription-permissive chromatin at the associated MYOD1 promoter. Exogenous OCT4 also binds first to the permissive MYOD1 enhancer but has a different effect on the cognate promoter, where the monovalent H3K27me3 marks are converted to the bivalent state characteristic of stem cells. Genome-wide, a high percentage of Polycomb targets are associated with putative enhancers in permissive states, suggesting that they may provide a widespread avenue for the initiation of cell-fate reprogramming.

摘要

关键调节基因受到 Polycomb 和 H3K27me3 的抑制，在正常分化和诱导重编程过程中变得活跃。我们使用 MYOD1 这一特征明确的增强子/启动子对作为模型，确定了增强子在重编程中的关键作用。我们观察到，在 H3K4me1 富集的增强子处存在一个出乎意料的无核小体区域 (NDR)，转录调节因子最初在此结合，导致随后在同源启动子处的染色质发生变化。外源性 Myod1 通过首先结合增强子来激活其自身的转录，导致与 MYOD1 启动子相关的 NDR 和转录允许性染色质。外源性 OCT4 也首先结合到允许的 MYOD1 增强子上，但对同源启动子有不同的影响，其中单价 H3K27me3 标记被转化为干细胞特征的二价状态。在全基因组范围内，大量 Polycomb 靶标与具有潜在活性的增强子相关，这表明它们可能为细胞命运重编程的启动提供了广泛的途径。

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