PRMT5-ZNF326 轴介导复制应激后的固有免疫激活。

A PRMT5-ZNF326 axis mediates innate immune activation upon replication stress.

机构信息

Cancer Science Institute of Singapore, National University of Singapore, Singapore, Singapore.

Center for OncoGenomics and Innovative Therapeutics (COGIT), Tisch Cancer Institute, Icahn School of Medicine at Mount Sinai, New York, NY 10029, USA.

出版信息

Sci Adv. 2024 Jun 7;10(23):eadm9589. doi: 10.1126/sciadv.adm9589. Epub 2024 Jun 5.

DOI:10.1126/sciadv.adm9589

PMID:38838142

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11804791/

Abstract

DNA replication stress (RS) is a widespread phenomenon in carcinogenesis, causing genomic instability and extensive chromatin alterations. DNA damage leads to activation of innate immune signaling, but little is known about transcriptional regulators mediating such signaling upon RS. Using a chemical screen, we identified protein arginine methyltransferase 5 (PRMT5) as a key mediator of RS-dependent induction of interferon-stimulated genes (ISGs). This response is also associated with reactivation of endogenous retroviruses (ERVs). Using quantitative mass spectrometry, we identify proteins with PRMT5-dependent symmetric dimethylarginine (SDMA) modification induced upon RS. Among these, we show that PRMT5 targets and modulates the activity of ZNF326, a zinc finger protein essential for ISG response. Our data demonstrate a role for PRMT5-mediated SDMA in the context of RS-induced transcriptional induction, affecting physiological homeostasis and cancer therapy.

摘要

DNA 复制应激（RS）是致癌过程中普遍存在的现象，导致基因组不稳定和广泛的染色质改变。DNA 损伤会导致先天免疫信号的激活，但对于介导 RS 时这种信号的转录调节剂知之甚少。我们使用化学筛选方法，鉴定出精氨酸甲基转移酶 5（PRMT5）是 RS 依赖性诱导干扰素刺激基因（ISGs）的关键介质。这种反应也与内源性逆转录病毒（ERVs）的重新激活有关。使用定量质谱，我们鉴定出 RS 诱导的 PRMT5 依赖性对称二甲基精氨酸（SDMA）修饰的蛋白质。在这些蛋白质中，我们表明 PRMT5 靶向并调节 ZNF326 的活性，ZNF326 是 ISG 反应所必需的锌指蛋白。我们的数据表明，PRMT5 介导的 SDMA 在 RS 诱导的转录诱导的背景下发挥作用，影响生理稳态和癌症治疗。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dce4/11804791/46dacd141c4e/sciadv.adm9589-f1.jpg

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PRMT5-ZNF326 轴介导复制应激后的固有免疫激活。

A PRMT5-ZNF326 axis mediates innate immune activation upon replication stress.

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