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动态 BRG1 募集在辅助性 T 细胞分化和激活过程中揭示了远端调控元件。

Dynamic BRG1 recruitment during T helper differentiation and activation reveals distal regulatory elements.

机构信息

Research Resources Branch, National Institute on Aging, NIH, Baltimore, Maryland 21224, USA.

出版信息

Mol Cell Biol. 2011 Apr;31(7):1512-27. doi: 10.1128/MCB.00920-10. Epub 2011 Jan 24.

DOI:10.1128/MCB.00920-10
PMID:21262765
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3135292/
Abstract

T helper cell differentiation and activation require specific transcriptional programs accompanied by changes in chromatin structure. However, little is known about the chromatin remodeling enzymes responsible. We performed genome-wide analysis to determine the general principles of BRG1 binding, followed by analysis of specific genes to determine whether these general rules were typical of key T cell genes. We found that binding of the remodeling protein BRG1 was programmed by both lineage and activation signals. BRG1 binding positively correlated with gene activity at protein-coding and microRNA (miRNA) genes. BRG1 binding was found at promoters and distal regions, including both novel and previously validated distal regulatory elements. Distal BRG1 binding correlated with expression, and novel distal sites in the Gata3 locus possessed enhancer-like activity, suggesting a general role for BRG1 in long-distance gene regulation. BRG1 recruitment to distal sites in Gata3 was impaired in cells lacking STAT6, a transcription factor that regulates lineage-specific genes. Together, these findings suggest that BRG1 interprets both differentiation and activation signals and plays a causal role in gene regulation, chromatin structure, and cell fate. Our findings suggest that BRG1 binding is a useful marker for identifying active cis-regulatory regions in protein-coding and miRNA genes.

摘要

辅助性 T 细胞的分化和激活需要特定的转录程序,并伴随着染色质结构的变化。然而,负责这些变化的染色质重塑酶知之甚少。我们进行了全基因组分析,以确定 BRG1 结合的一般原则,然后分析特定基因,以确定这些一般规则是否是关键 T 细胞基因的典型特征。我们发现,重塑蛋白 BRG1 的结合受到谱系和激活信号的编程。BRG1 结合与蛋白质编码基因和 microRNA (miRNA) 基因的基因活性呈正相关。BRG1 结合发生在启动子和远端区域,包括新的和以前验证的远端调控元件。远端 BRG1 结合与表达相关,Gata3 基因座中的新远端位点具有增强子样活性,这表明 BRG1 在远距离基因调控中具有普遍作用。在缺乏转录因子 STAT6 的细胞中,BRG1 向 Gata3 远端位点的募集受损,STAT6 是调节谱系特异性基因的转录因子。这些发现表明,BRG1 既解释了分化信号,也解释了激活信号,并在基因调控、染色质结构和细胞命运中发挥因果作用。我们的研究结果表明,BRG1 结合是识别蛋白质编码基因和 miRNA 基因中活性顺式调控区的有用标记。

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