鸟类和哺乳动物中OAS/RNase L与OASL/RIG-I途径间适应性转换的分子机制

Molecular Mechanisms for the Adaptive Switching Between the OAS/RNase L and OASL/RIG-I Pathways in Birds and Mammals.

作者信息

Rong Enguang, Wang Xiaoxue, Chen Hualan, Yang Chenghuai, Hu Jiaxiang, Liu Wenjie, Wang Zeng, Chen Xiaoyun, Zheng Haixue, Pu Juan, Sun Honglei, Smith Jacqueline, Burt David W, Liu Jinhua, Li Ning, Huang Yinhua

机构信息

State Key Laboratory for Agrobiotechnology, China Agricultural University, Beijing, China.

Animal Influenza Laboratory of the Ministry of Agriculture and National Key Laboratory of Veterinary Biotechnology, Harbin Veterinary Research Institute, Chinese Academy of Agricultural Sciences, Harbin, China.

出版信息

Front Immunol. 2018 Jun 20;9:1398. doi: 10.3389/fimmu.2018.01398. eCollection 2018.

DOI:10.3389/fimmu.2018.01398

PMID:29973937

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6019448/

Abstract

Host cells develop the OAS/RNase L [2'-5'-oligoadenylate synthetase (OAS)/ribonuclease L] system to degrade cellular and viral RNA, and/or the OASL/RIG-I (2'-5'-OAS like/retinoic acid inducible protein I) system to enhance RIG-I-mediated IFN induction, thus providing the first line of defense against viral infection. The 2'-5'-OAS-like (OASL) protein may activate the OAS/RNase L system using its typical OAS-like domain (OLD) or mimic the K63-linked pUb to enhance antiviral activity of the OASL/RIG-I system using its two tandem ubiquitin-like domains (UBLs). We first describe that divergent avian (duck and ostrich) OASL inhibit the replication of a broad range of RNA viruses by activating and magnifying the OAS/RNase L pathway in a UBL-dependent manner. This is in sharp contrast to mammalian enzymatic OASL, which activates and magnifies the OAS/RNase L pathway in a UBL-independent manner, similar to 2'-5'-oligoadenylate synthetase 1 (OAS1). We further show that both avian and mammalian OASL can reversibly exchange to activate and magnify the OAS/RNase L and OASL/RIG-I system by introducing only three key residues, suggesting that ancient OASL possess 2-5A [p5'A(2'p5'A); x = 1-3; n ≥ 2] activity and has functionally switched to the OASL/RIG-I pathway recently. Our findings indicate the molecular mechanisms involved in the switching of avian and mammalian OASL molecules to activate and enhance the OAS/RNase L and OASL/RIG-I pathways in response to infection by RNA viruses.

摘要

宿主细胞会发展出OAS/RNase L（2'-5'-寡腺苷酸合成酶/OAS/核糖核酸酶L）系统来降解细胞和病毒RNA，和/或OASL/RIG-I（2'-5'-OAS样/视黄酸诱导蛋白I）系统来增强RIG-I介导的干扰素诱导，从而提供针对病毒感染的第一道防线。2'-5'-OAS样（OASL）蛋白可以利用其典型的OAS样结构域（OLD）激活OAS/RNase L系统，或者利用其两个串联的泛素样结构域（UBLs）模拟K63连接的多聚泛素来增强OASL/RIG-I系统的抗病毒活性。我们首次描述了不同禽类（鸭和鸵鸟）的OASL通过以UBL依赖的方式激活和放大OAS/RNase L途径来抑制多种RNA病毒的复制。这与哺乳动物的酶性OASL形成鲜明对比，后者以UBL非依赖的方式激活和放大OAS/RNase L途径，类似于2'-5'-寡腺苷酸合成酶1（OAS1）。我们进一步表明，禽类和哺乳动物的OASL都可以通过仅引入三个关键残基来可逆地交换，以激活和放大OAS/RNase L和OASL/RIG-I系统，这表明古老的OASL具有2-5A【p5'A(2'p5'A)；x = 1-3；n≥2】活性，并且最近在功能上已切换到OASL/RIG-I途径。我们的研究结果揭示了禽类和哺乳动物OASL分子在响应RNA病毒感染时激活和增强OAS/RNase L和OASL/RIG-I途径的转换所涉及的分子机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/18c0/6019448/30fd8c043758/fimmu-09-01398-g001.jpg

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鸟类和哺乳动物中OAS/RNase L与OASL/RIG-I途径间适应性转换的分子机制

Molecular Mechanisms for the Adaptive Switching Between the OAS/RNase L and OASL/RIG-I Pathways in Birds and Mammals.

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