Structural basis for translational shutdown and immune evasion by the Nspl protein of SARS-CoV-2

Thoms Matthias; Buschauer Robert; Ameismeier Michael; Koepke Lennart; Denk Timo; Hirschenberger Maximilian; Kratzat Hanna; Hayn Manuel; Mackens-Kiani Timur; Cheng Jingdong; Straub Jan H.; Sturzel Christina M.; Frohlich Thomas; Berninghausen Otto; Becker Thomas; Kirchhoff Frank; Sparrer Konstantin M. J.; Beckmann Roland

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Structural basis for translational shutdown and immune evasion by the Nspl protein of SARS-CoV-2

机译：SARS-COV-2的NSPL蛋白转化关机和免疫逃避的结构基础

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Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is the causative agent of the current coronavirus disease 2019 (COVID-19) pandemic. A major virulence factor of SARS-CoVs is the nonstructural protein 1 (Nsp1), which suppresses host gene expression by ribosome association. Here, we show that Nsp1 from SARS-CoV-2 binds to the 40S ribosomal subunit, resulting in shutdown of messenger RNA (mRNA) translation both in vitro and in cells. Structural analysis by cryo-electron microscopy of in vitro-reconstituted Nsp1-40S and various native Nsp1-40S and -80S complexes revealed that the Nsp1 C terminus binds to and obstructs the mRNA entry tunnel. Thereby, Nsp1 effectively blocks retinoic acid-inducible gene I-dependent innate immune responses that would otherwise facilitate clearance of the infection. Thus, the structural characterization of the inhibitory mechanism of Nsp1 may aid structure-based drug design against SARS-CoV-2.

机译：严重急性呼吸综合征冠状病毒2（SARS-COV-2）是目前冠状病毒疾病2019（Covid-19）大流行的致病剂。 SARS-COV的主要毒力因子是非结构蛋白1（NSP1），其抑制核糖体结合的宿主基因表达。这里，我们表明来自SARS-COV-2的NSP1与40s核糖体亚基结合，导致在体外和细胞中关闭信使RNA（mRNA）翻译。通过体外重构的NSP1-40s和各种天然NSP1-40s和-80s复合物的冷冻电子显微镜的结构分析显示NSP1 C末端结合并阻塞mRNA进入隧道。由此，NSP1有效地阻断了视黄酸诱导基因I依赖性先天免疫应答，否则将促进感染的间隙。因此，NSP1的抑制机制的结构表征可以帮助基于结构的药物设计对SARS-COV-2。

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《Science》 |2020年第6508期|1249-1255|共7页
作者
Thoms Matthias; Buschauer Robert; Ameismeier Michael; Koepke Lennart; Denk Timo; Hirschenberger Maximilian; Kratzat Hanna; Hayn Manuel; Mackens-Kiani Timur; Cheng Jingdong; Straub Jan H.; Sturzel Christina M.; Frohlich Thomas; Berninghausen Otto; Becker Thomas; Kirchhoff Frank; Sparrer Konstantin M. J.; Beckmann Roland;
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作者单位

Univ Munich Gene Ctr Munich Dept Biochem Munich Germany;

Univ Munich Gene Ctr Munich Dept Biochem Munich Germany;

Univ Munich Gene Ctr Munich Dept Biochem Munich Germany;

Ulm Univ Inst Mol Virol Med Ctr Ulm Germany;

Univ Munich Gene Ctr Munich Dept Biochem Munich Germany;

Ulm Univ Inst Mol Virol Med Ctr Ulm Germany;

Univ Munich Gene Ctr Munich Dept Biochem Munich Germany;

Ulm Univ Inst Mol Virol Med Ctr Ulm Germany;

Univ Munich Gene Ctr Munich Dept Biochem Munich Germany;

Univ Munich Gene Ctr Munich Dept Biochem Munich Germany;

Ulm Univ Inst Mol Virol Med Ctr Ulm Germany;

Ulm Univ Inst Mol Virol Med Ctr Ulm Germany;

Univ Munich Lab Funct Genome Anal Munich Germany;

Univ Munich Gene Ctr Munich Dept Biochem Munich Germany;

Univ Munich Gene Ctr Munich Dept Biochem Munich Germany;

Ulm Univ Inst Mol Virol Med Ctr Ulm Germany;

Ulm Univ Inst Mol Virol Med Ctr Ulm Germany;

Univ Munich Gene Ctr Munich Dept Biochem Munich Germany;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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正文语种 eng
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入库时间 2022-08-18 22:15:13

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2. The group B streptococcal beta and pneumococcal Hic proteins are structurally related immune evasion molecules that bind the complement inhibitor factor H in an analogous fashion. [J] . Jarva H, Hellwage J, Jokiranta TS, The Journal of Immunology: Official Journal of the American Association of Immunologists . 2004,第5期

机译：B组链球菌β和肺炎球菌Hic蛋白是结构相关的免疫逃避分子，它们以类似方式结合补体抑制剂因子H。
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机译：由III型效应器HOPZ3的翻译后修饰通过细菌和植物蛋白的乙酰化调节番茄宿主免疫
5. The role of SOCS proteins in HIV immune evasion. [D] . Akhtar, Lisa Nowoslawski. 2010

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6. Structural basis for translational shutdown and immune evasion by the Nsp1 protein of SARS-CoV-2 [O] . Matthias Thoms, Robert Buschauer, Michael Ameismeier, -1

机译：SARS-COV-2的NSP1蛋白的翻译关闭和免疫逃避的结构基础
7. Structural basis for enhanced infectivity and immune evasion of SARS-CoV-2 variants [O] . Yongfei Cai, Jun Zhang, Tianshu Xiao, 2021

机译：结构基础，用于增强SARS-COV-2变体的感染性和免疫逃逸

Structural basis for translational shutdown and immune evasion by the Nspl protein of SARS-CoV-2

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