BRCA1 和 H3K9me2 丢失之间的协同致死作用反映了卫星去抑制。

Synergistic lethality between BRCA1 and H3K9me2 loss reflects satellite derepression.

机构信息

Friedrich Miescher Institute for Biomedical Research, CH-4058 Basel, Switzerland.

Faculty of Natural Sciences, University of Basel, CH-4056 Basel, Switzerland.

出版信息

Genes Dev. 2019 Apr 1;33(7-8):436-451. doi: 10.1101/gad.322495.118. Epub 2019 Feb 25.

DOI:10.1101/gad.322495.118

PMID:30804228

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6446544/

Abstract

has two histone H3 Lys9 methyltransferases, MET-2 (SETDB1 homolog) and SET-25 (G9a/SUV39H1 related). In worms, we found simple repeat sequences primarily marked by H3K9me2, while transposable elements and silent tissue-specific genes bear H3K9me3. RNA sequencing (RNA-seq) in histone methyltransferase (HMT) mutants shows that MET-2-mediated H3K9me2 is necessary for satellite repeat repression, while SET-25 silences a subset of transposable elements and tissue-specific genes through H3K9me3. A genome-wide synthetic lethality screen showed that RNA processing, nuclear RNA degradation, the BRCA1/BARD1 complex, and factors mediating replication stress survival are necessary for germline viability in worms lacking MET-2 but not SET-25. Unlike mutants, -null worms accumulated satellite repeat transcripts, which form RNA:DNA hybrids on repetitive sequences, additively with the loss of BRCA1 or BARD1. BRCA1/BARD1-mediated H2A ubiquitination and MET-2 deposited H3K9me2 on satellite repeats are partially interdependent, suggesting both that the loss of silencing generates BRCA-recruiting DNA damage and that BRCA1 recruitment by damage helps silence repeats. The artificial induction of MSAT1 transcripts can itself trigger damage-induced germline lethality in a wild-type background, arguing that the synthetic sterility upon BRCA1/BARD1 and H3K9me2 loss is directly linked to the DNA damage provoked by unscheduled satellite repeat transcription.

摘要

它有两个组蛋白 H3 Lys9 甲基转移酶，MET-2（SETDB1 同源物）和 SET-25（G9a/SUV39H1 相关）。在蠕虫中，我们发现主要由 H3K9me2 标记的简单重复序列，而转座元件和沉默的组织特异性基因则带有 H3K9me3。在组蛋白甲基转移酶（HMT）突变体中的 RNA 测序（RNA-seq）显示，MET-2 介导的 H3K9me2 对于卫星重复序列的抑制是必要的，而 SET-25 通过 H3K9me3 沉默一部分转座元件和组织特异性基因。全基因组合成致死性筛选显示，RNA 加工、核 RNA 降解、BRCA1/BARD1 复合物以及介导复制应激存活的因素对于缺乏 MET-2 但不缺乏 SET-25 的蠕虫生殖细胞存活是必要的。与突变体不同，缺失的蠕虫积累了卫星重复转录本，这些转录本在重复序列上形成 RNA:DNA 杂交，与 BRCA1 或 BARD1 的缺失相加。BRCA1/BARD1 介导的 H2A 泛素化和 MET-2 在卫星重复序列上沉积的 H3K9me2 部分相互依赖，这表明沉默的丧失会产生 BRCA 募集的 DNA 损伤，而 BRCA1 被损伤募集有助于沉默重复序列。MSAT1 转录本的人工诱导本身可以在野生型背景下引发损伤诱导的生殖细胞致死性，这表明在 BRCA1/BARD1 和 H3K9me2 缺失时的合成不育性直接与未调度的卫星重复转录引起的 DNA 损伤有关。

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BRCA1 和 H3K9me2 丢失之间的协同致死作用反映了卫星去抑制。

Synergistic lethality between BRCA1 and H3K9me2 loss reflects satellite derepression.

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