多梳蛋白家族成员EZH2直接调控DNA甲基化。

The Polycomb group protein EZH2 directly controls DNA methylation.

作者信息

Viré Emmanuelle, Brenner Carmen, Deplus Rachel, Blanchon Loïc, Fraga Mario, Didelot Céline, Morey Lluis, Van Eynde Aleyde, Bernard David, Vanderwinden Jean-Marie, Bollen Mathieu, Esteller Manel, Di Croce Luciano, de Launoit Yvan, Fuks François

机构信息

Free University of Brussels, Faculty of Medicine, Laboratory of Molecular Virology, 808 route de Lennik, 1070 Brussels, Belgium.

出版信息

Nature. 2006 Feb 16;439(7078):871-4. doi: 10.1038/nature04431. Epub 2005 Dec 14.

DOI:10.1038/nature04431

PMID:16357870

Abstract

The establishment and maintenance of epigenetic gene silencing is fundamental to cell determination and function. The essential epigenetic systems involved in heritable repression of gene activity are the Polycomb group (PcG) proteins and the DNA methylation systems. Here we show that the corresponding silencing pathways are mechanistically linked. We find that the PcG protein EZH2 (Enhancer of Zeste homolog 2) interacts-within the context of the Polycomb repressive complexes 2 and 3 (PRC2/3)-with DNA methyltransferases (DNMTs) and associates with DNMT activity in vivo. Chromatin immunoprecipitations indicate that binding of DNMTs to several EZH2-repressed genes depends on the presence of EZH2. Furthermore, we show by bisulphite genomic sequencing that EZH2 is required for DNA methylation of EZH2-target promoters. Our results suggest that EZH2 serves as a recruitment platform for DNA methyltransferases, thus highlighting a previously unrecognized direct connection between two key epigenetic repression systems.

摘要

表观遗传基因沉默的建立和维持对于细胞的决定和功能至关重要。参与基因活性遗传性抑制的重要表观遗传系统是多梳蛋白家族（PcG）和DNA甲基化系统。在此我们表明，相应的沉默途径在机制上是相互关联的。我们发现，PcG蛋白EZH2（zeste同源物2增强子）在多梳抑制复合物2和3（PRC2/3）的背景下与DNA甲基转移酶（DNMTs）相互作用，并在体内与DNMT活性相关联。染色质免疫沉淀表明，DNMTs与几个EZH2抑制基因的结合依赖于EZH2的存在。此外，我们通过亚硫酸氢盐基因组测序表明，EZH2是EZH2靶启动子DNA甲基化所必需的。我们的结果表明，EZH2作为DNA甲基转移酶的募集平台，从而突出了两个关键表观遗传抑制系统之间以前未被认识到的直接联系。

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多梳蛋白家族成员EZH2直接调控DNA甲基化。

The Polycomb group protein EZH2 directly controls DNA methylation.

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