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去甲基化的HSATII DNA和HSATII RNA灶将PRC1和MeCP2隔离到癌症特异性核小体中。

Demethylated HSATII DNA and HSATII RNA Foci Sequester PRC1 and MeCP2 into Cancer-Specific Nuclear Bodies.

作者信息

Hall Lisa L, Byron Meg, Carone Dawn M, Whitfield Troy W, Pouliot Gayle P, Fischer Andrew, Jones Peter, Lawrence Jeanne B

机构信息

Department of Cell and Developmental Biology, University of Massachusetts Medical School, Worcester, MA 01655, USA.

Department of Cell and Developmental Biology, University of Massachusetts Medical School, Worcester, MA 01655, USA; Program in Bioinformatics and Integrative Biology, University of Massachusetts Medical School, Worcester, MA 01655, USA.

出版信息

Cell Rep. 2017 Mar 21;18(12):2943-2956. doi: 10.1016/j.celrep.2017.02.072.

DOI:10.1016/j.celrep.2017.02.072
PMID:28329686
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5429029/
Abstract

This study reveals that high-copy satellite II (HSATII) sequences in the human genome can bind and impact distribution of chromatin regulatory proteins and that this goes awry in cancer. In many cancers, master regulatory proteins form two types of cancer-specific nuclear bodies, caused by locus-specific deregulation of HSATII. DNA demethylation at the 1q12 mega-satellite, common in cancer, causes PRC1 aggregation into prominent Cancer-Associated Polycomb (CAP) bodies. These loci remain silent, whereas HSATII loci with reduced PRC1 become derepressed, reflecting imbalanced distribution of UbH2A on these and other PcG-regulated loci. Large nuclear foci of HSATII RNA form and sequester copious MeCP2 into Cancer-Associated Satellite Transcript (CAST) bodies. Hence, HSATII DNA and RNA have an exceptional capacity to act as molecular sponges and sequester chromatin regulatory proteins into abnormal nuclear bodies in cancer. The compartmentalization of regulatory proteins within nuclear structure, triggered by demethylation of "junk" repeats, raises the possibility that this contributes to further compromise of the epigenome and neoplastic progression.

摘要

这项研究表明,人类基因组中的高拷贝卫星II(HSATII)序列能够结合并影响染色质调节蛋白的分布,而这一过程在癌症中出现了异常。在许多癌症中,由于HSATII的位点特异性失调,主要调节蛋白会形成两种类型的癌症特异性核体。癌症中常见的1q12巨型卫星处的DNA去甲基化会导致PRC1聚集形成显著的癌症相关多梳(CAP)体。这些位点保持沉默,而PRC1减少的HSATII位点则会去抑制,这反映了泛素化组蛋白H2A在这些以及其他多梳蛋白复合体(PcG)调控位点上的分布失衡。HSATII RNA形成大的核灶,并将大量MeCP2隔离到癌症相关卫星转录本(CAST)体中。因此,HSATII DNA和RNA具有特殊能力,可作为分子海绵,将染色质调节蛋白隔离到癌症中的异常核体中。由“垃圾”重复序列去甲基化引发的调节蛋白在核结构内的分隔,增加了这可能导致表观基因组进一步受损和肿瘤进展的可能性。

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