Cleavage of SQSTM1/p62 by the Zika virus protease NS2B3 prevents autophagic degradation of viral NS3 and NS5 proteins.

Autophagy Pub Date : 2024-12-01 Epub Date: 2024-08-17 DOI:10.1080/15548627.2024.2390810
Peng Zhou, Qingxiang Zhang, Yueshan Yang, Wanrong Wu, Dong Chen, Zhenhua Zheng, Anan Jongkaewwattana, Hui Jin, Hongbo Zhou, Rui Luo
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Abstract

Macroautophagy/autophagy plays a crucial role in inhibiting viral replication and regulating the host's immune response. The autophagy receptor SQSTM1/p62 (sequestosome 1) restricts viral replication by directing specific viral proteins to phagophores for degradation. In this study, we investigate the reciprocal relationship between Zika virus (ZIKV) and selective autophagy mediated by SQSTM1/p62. We show that NS2B3 protease encoded by ZIKV cleaves human SQSTM1/p62 at arginine 265 (R265). This cleavage also occurs with endogenous SQSTM1 in ZIKV-infected cells. Furthermore, overexpression of SQSTM1 inhibits ZIKV replication in A549 cells, while its absence increases viral titer. We have also shown that SQSTM1 impedes ZIKV replication by interacting with NS3 and NS5 and directing them to autophagic degradation, and that NS2B3-mediated cleavage could potentially alter this antiviral function of SQSTM1. Taken together, our study highlights the role of SQSTM1-mediated selective autophagy in the host's antiviral defense against ZIKV and uncovers potential viral evasion strategies that exploit the host's autophagic machinery to ensure successful infection.Abbreviation: Cas9: CRISPR-associated protein 9; Co-IP: co-immunoprecipitation; CRISPR: clustered regularly interspaced short palindromic repeats; DENV: dengue virus; GFP: green fluorescent protein; IFA: indirect immunofluorescence assay; KIR: KEAP1-interacting region; KO: knockout; LIR: MAP1LC3/LC3-interacting region; mAb: monoclonal antibody; NBR1: NBR1 autophagy cargo receptor; OPTN: optineurin; pAb: polyclonal antibody; PB1: Phox/BEM1 domain; R265A, a SQSTM1 construct with the arginine (R) residue at position 265 replaced with glutamic acid (A); SQSTM1: sequestosome 1; SQSTM1-C, C-terminal fragment of SQSTM1; SQSTM1-N, N-terminal fragment of SQSTM1; SVV: Seneca Valley virus; TAX1BP1: Tax1 binding protein 1; TBD: TRAF6-binding domain; TCID50: 50% tissue culture infective dose; UBA: ubiquitin-associated domain; Ub: ubiquitin; WT: wild type; ZIKV: Zika virus; ZZ: ZZ-type zinc finger domain.

寨卡病毒蛋白酶 NS2B3 对 SQSTM1/p62 的裂解可阻止病毒 NS3 和 NS5 蛋白的自噬降解。
大自噬/自噬在抑制病毒复制和调节宿主免疫反应方面发挥着至关重要的作用。自噬受体 SQSTM1/p62(sequestosome 1)通过引导特定的病毒蛋白到吞噬细胞中降解来限制病毒复制。在本研究中,我们研究了寨卡病毒(ZIKV)与 SQSTM1/p62 介导的选择性自噬之间的相互关系。我们发现寨卡病毒编码的 NS2B3 蛋白酶会在精氨酸 265 (R265) 处裂解人类 SQSTM1/p62。在 ZIKV 感染的细胞中,内源性 SQSTM1 也会发生这种裂解。此外,过表达 SQSTM1 可抑制 ZIKV 在 A549 细胞中的复制,而不表达 SQSTM1 则会增加病毒滴度。我们还发现,SQSTM1 通过与 NS3 和 NS5 相互作用并引导它们自噬降解来阻碍 ZIKV 复制,而 NS2B3 介导的裂解可能会改变 SQSTM1 的这种抗病毒功能。总之,我们的研究强调了 SQSTM1 介导的选择性自噬在宿主对 ZIKV 的抗病毒防御中的作用,并揭示了利用宿主自噬机制确保成功感染的潜在病毒规避策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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