SMC5/6 复合物通过 SUMO 化解旋酶 Rqh1 促进复制叉受到干扰时的 Rad3 检查点信号转导。

Smc5/6 Complex Promotes Rad3 Checkpoint Signaling at the Perturbed Replication Fork through Sumoylation of the RecQ Helicase Rqh1.

机构信息

Department of Pharmacology and Toxicology, Boonshoft School of Medicine, Wright State Universitygrid.268333.f, Dayton, Ohio, USA.

Department of Mathematics and Statistics, Wright State Universitygrid.268333.f, Dayton, Ohio, USA.

出版信息

Mol Cell Biol. 2022 Jun 16;42(6):e0004522. doi: 10.1128/mcb.00045-22. Epub 2022 May 25.

DOI:10.1128/mcb.00045-22

PMID:35612306

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9202435/

Abstract

Smc5/6, like cohesin and condensin, is a structural maintenance of chromosomes complex crucial for genome stability. Unlike cohesin and condensin, Smc5/6 carries an essential Nse2 subunit with SUMO E3 ligase activity. While screening for new DNA replication checkpoint mutants in fission yeast, we have identified two previously uncharacterized mutants in Smc5/6. Characterization of the mutants and a series of previously reported Smc5/6 mutants uncovered that sumoylation of the RecQ helicase Rqh1 by Nse2 facilitates the checkpoint signaling at the replication fork. We found that mutations that eliminate the sumoylation sites or the helicase activity of Rqh1 compromised the checkpoint signaling similar to a mutant lacking the ligase activity. Surprisingly, introducing a sumoylation site mutation to a helicase-inactive mutant promoted cell survival under stress. These findings, together with other genetic data, support a mechanism that sumoylation of Rqh1 by Smc5/6-Nse2 recruits Rqh1 or modulates its helicase activity at the fork to facilitate the checkpoint signaling. Since the Smc5/6 complex, Rqh1, and the replication checkpoint are conserved in eukaryotes, a similar checkpoint mechanism may be operating in human cells.

摘要

Smc5/6 与黏合蛋白和凝聚蛋白一样，是一种结构维持染色体复合物，对基因组稳定性至关重要。与黏合蛋白和凝聚蛋白不同，Smc5/6 携带一个必需的 Nse2 亚基，具有 SUMO E3 连接酶活性。在筛选裂殖酵母中新的 DNA 复制检查点突变体时，我们在 Smc5/6 中发现了两个以前未被表征的突变体。对突变体的特征分析和一系列以前报道的 Smc5/6 突变体的研究表明，Nse2 对 RecQ 解旋酶 Rqh1 的 SUMO 化促进了复制叉处的检查点信号转导。我们发现，消除 Rqh1 的 SUMO 化位点或解旋酶活性的突变会削弱检查点信号，类似于缺乏连接酶活性的突变体。令人惊讶的是，在无活性的突变体中引入 SUMO 化位点突变可促进细胞在应激下存活。这些发现以及其他遗传数据支持一种机制，即 Smc5/6-Nse2 对 Rqh1 的 SUMO 化招募 Rqh1 或调节其在叉处的解旋酶活性，从而促进检查点信号转导。由于 Smc5/6 复合物、Rqh1 和复制检查点在真核生物中是保守的，类似的检查点机制可能在人类细胞中起作用。

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