BLM 防止结构形成 DNA 序列在常见脆弱部位的不稳定性。

BLM prevents instability of structure-forming DNA sequences at common fragile sites.

机构信息

Beijing Key Laboratory of DNA Damage Response and College of Life Science, Capital Normal University, Beijing, China.

Department of Molecular Medicine, The Scripps Research Institute, La Jolla, California, United States of America.

出版信息

PLoS Genet. 2018 Nov 29;14(11):e1007816. doi: 10.1371/journal.pgen.1007816. eCollection 2018 Nov.

DOI:10.1371/journal.pgen.1007816

PMID:30496191

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6289451/

Abstract

Genome instability often arises at common fragile sites (CFSs) leading to cancer-associated chromosomal rearrangements. However, the underlying mechanisms of how CFS protection is achieved is not well understood. We demonstrate that BLM plays an important role in the maintenance of genome stability of structure-forming AT-rich sequences derived from CFSs (CFS-AT). BLM deficiency leads to increased DSB formation and hyper mitotic recombination at CFS-AT and induces instability of the plasmids containing CFS-AT. We further showed that BLM is required for suppression of CFS breakage upon oncogene expression. Both helicase activity and ATR-mediated phosphorylation of BLM are important for preventing genetic instability at CFS-AT sequences. Furthermore, the role of BLM in protecting CFS-AT is not epistatic to that of FANCM, a translocase that is involved in preserving CFS stability. Loss of BLM helicase activity leads to drastic decrease of cell viability in FANCM deficient cells. We propose that BLM and FANCM utilize different mechanisms to remove DNA secondary structures forming at CFS-AT on replication forks, thereby preventing DSB formation and maintaining CFS stability.

摘要

基因组不稳定性通常出现在常见的脆性位点 (CFSs) 上，导致与癌症相关的染色体重排。然而，CFS 保护是如何实现的潜在机制尚不清楚。我们证明 BLM 在维持源自 CFS 的结构形成的富含 AT 的序列（CFS-AT）的基因组稳定性方面发挥着重要作用。BLM 缺陷会导致 CFS-AT 处 DSB 的形成和超有丝分裂重组增加，并导致含有 CFS-AT 的质粒不稳定。我们进一步表明，BLM 对于抑制 CFS 在致癌基因表达时的断裂是必需的。解旋酶活性和 ATR 介导的 BLM 磷酸化对于防止 CFS-AT 序列的遗传不稳定性都很重要。此外，BLM 在保护 CFS-AT 中的作用与参与维持 CFS 稳定性的转位酶 FANCM 的作用没有上位性。BLM 解旋酶活性的丧失会导致 FANCM 缺陷细胞的细胞活力急剧下降。我们提出 BLM 和 FANCM 利用不同的机制在复制叉上去除 CFS-AT 上形成的 DNA 二级结构，从而防止 DSB 的形成并维持 CFS 的稳定性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ff3e/6289451/f8c72a675ea1/pgen.1007816.g001.jpg

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BLM 防止结构形成 DNA 序列在常见脆弱部位的不稳定性。

BLM prevents instability of structure-forming DNA sequences at common fragile sites.

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