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组蛋白H3上的瓜氨酸化/甲基化串扰调控内质网靶向基因转录。

Citrullination/Methylation Crosstalk on Histone H3 Regulates ER-Target Gene Transcription.

作者信息

Clancy Kathleen W, Russell Anna-Maria, Subramanian Venkataraman, Nguyen Hannah, Qian Yuewei, Campbell Robert M, Thompson Paul R

机构信息

Lilly Research Laboratories, Eli Lilly & Company , Indianapolis, Indiana 46285, United States.

Department of Biochemistry and Pharmacology, University of Massachusetts Medical School , Worcester, Massachusetts 01605, United States.

出版信息

ACS Chem Biol. 2017 Jun 16;12(6):1691-1702. doi: 10.1021/acschembio.7b00241. Epub 2017 May 9.

DOI:10.1021/acschembio.7b00241
PMID:28485572
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5536191/
Abstract

Posttranslational modifications of histone tails are a key contributor to epigenetic regulation. Histone H3 Arg26 and Lys27 are both modified by multiple enzymes, and their modifications have profound effects on gene expression. Citrullination of H3R26 by PAD2 and methylation of H3K27 by PRC2 have opposing downstream impacts on gene regulation; H3R26 citrullination activates gene expression, and H3K27 methylation represses gene expression. Both of these modifications are drivers of a variety of cancers, and their writer enzymes, PAD2 and EZH2, are the targets of drug therapies. After biochemical and cell-based analysis of these modifications, a negative crosstalk interaction is observed. Methylation of H3K27 slows citrullination of H3R26 30-fold, whereas citrullination of H3R26 slows methylation 30,000-fold. Examination of the mechanism of this crosstalk interaction uncovered a change in structure of the histone tail upon citrullination which prevents methylation by the PRC2 complex. This mechanism of crosstalk is reiterated in cell lines using knockdowns and inhibitors of both enzymes. Based our data, we propose a model in which, after H3 Cit26 formation, H3K27 demethylases are recruited to the chromatin to activate transcription. In total, our studies support the existence of crosstalk between citrullination of H3R26 and methylation of H3K27.

摘要

组蛋白尾部的翻译后修饰是表观遗传调控的关键因素。组蛋白H3的精氨酸26(Arg26)和赖氨酸27(Lys27)均被多种酶修饰,且它们的修饰对基因表达有深远影响。肽基精氨酸脱亚氨酶2(PAD2)介导的H3R26瓜氨酸化和多梳抑制复合物2(PRC2)介导的H3K27甲基化对基因调控具有相反的下游影响;H3R26瓜氨酸化激活基因表达,而H3K27甲基化抑制基因表达。这两种修饰都是多种癌症的驱动因素,其催化酶PAD2和EZH2是药物治疗的靶点。在对这些修饰进行生化和基于细胞的分析后,观察到一种负向串扰相互作用。H3K27甲基化使H3R26瓜氨酸化减慢30倍,而H3R26瓜氨酸化使甲基化减慢30000倍。对这种串扰相互作用机制的研究发现,瓜氨酸化后组蛋白尾部结构发生变化,从而阻止PRC2复合物进行甲基化。使用两种酶的敲低和抑制剂在细胞系中重复了这种串扰机制。基于我们的数据,我们提出了一个模型,即在H3 Cit26形成后,H3K27去甲基化酶被招募到染色质以激活转录。总之,我们的研究支持H3R26瓜氨酸化和H3K27甲基化之间存在串扰。

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