精氨酸甲基化和泛素化相互作用控制 DNA 末端切除和同源重组修复。

Arginine methylation and ubiquitylation crosstalk controls DNA end-resection and homologous recombination repair.

机构信息

Institute of Cancer and Genomic Sciences, University of Birmingham, Birmingham, UK.

Max Delbrück Center for Molecular Medicine, Berlin, Germany.

出版信息

Nat Commun. 2021 Nov 2;12(1):6313. doi: 10.1038/s41467-021-26413-6.

DOI:10.1038/s41467-021-26413-6

PMID:34728620

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8564520/

Abstract

Cross-talk between distinct protein post-translational modifications is critical for an effective DNA damage response. Arginine methylation plays an important role in maintaining genome stability, but how this modification integrates with other enzymatic activities is largely unknown. Here, we identify the deubiquitylating enzyme USP11 as a previously uncharacterised PRMT1 substrate, and demonstrate that the methylation of USP11 promotes DNA end-resection and the repair of DNA double strand breaks (DSB) by homologous recombination (HR), an event that is independent from another USP11-HR activity, the deubiquitylation of PALB2. We also show that PRMT1 is a ubiquitylated protein that it is targeted for deubiquitylation by USP11, which regulates the ability of PRMT1 to bind to and methylate MRE11. Taken together, our findings reveal a specific role for USP11 during the early stages of DSB repair, which is mediated through its ability to regulate the activity of the PRMT1-MRE11 pathway.

摘要

不同蛋白质翻译后修饰之间的串扰对于有效的 DNA 损伤反应至关重要。精氨酸甲基化在维持基因组稳定性方面发挥着重要作用，但这种修饰如何与其他酶活性整合在一起在很大程度上仍是未知的。在这里，我们鉴定出去泛素化酶 USP11 是一种以前未被表征的 PRMT1 底物，并证明 USP11 的甲基化促进 DNA 末端切除和通过同源重组 (HR) 修复 DNA 双链断裂 (DSB)，这一事件独立于另一种 USP11-HR 活性，即 PALB2 的去泛素化。我们还表明 PRMT1 是一种泛素化蛋白，它是 USP11 靶向的去泛素化的目标，这调节了 PRMT1 结合和甲基化 MRE11 的能力。总之，我们的研究结果揭示了 USP11 在 DSB 修复的早期阶段的特定作用，这是通过其调节 PRMT1-MRE11 途径活性的能力介导的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd1f/8564520/1f3d48a5f660/41467_2021_26413_Fig1_HTML.jpg

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精氨酸甲基化和泛素化相互作用控制 DNA 末端切除和同源重组修复。

Arginine methylation and ubiquitylation crosstalk controls DNA end-resection and homologous recombination repair.

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