Novel virulence determinants in VP1 regulate the assembly of enterovirus-A71.

IF 4 2区医学 Q2 VIROLOGY

Journal of Virology Pub Date : 2024-11-13 DOI:10.1128/jvi.01655-24

Wenjing Zhang, Quanjie Li, Dongrong Yi, Ruifang Zheng, Guihua Liu, Qian Liu, Saisai Guo, Jianyuan Zhao, Jing Wang, Ling Ma, Jiwei Ding, Rui Zhou, Yongcheng Ren, Tingting Sun, Ao Zhang, Xiaoyu Li, Yongxin Zhang, Shan Cen

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引用次数: 0

Abstract

Enterovirus-A71 (EV-A71) is the second most common causative agent after coxsackievirus A16 of hand, foot, and mouth disease. The capsids of EV-A71 consist of 60 copies of each of the four viral structural proteins (VP1-VP4). VP1 is highly exposed and surface accessible, playing a central role in virus particle assembly, attachment, and entry. To gain insight into the role of highly conserved residues at positions 75, 78, and 88 in the capsid protein VP1 in these processes, an alanine-scanning analysis was performed using an infectious cDNA clone of EV-A71. Our study revealed that the substitutions of VP1-T75A, VP1-T78A, and VP1-G88A could affect the assembly of the virus capsid proteins, resulting in the production of abnormal virions with reduced infectivity. Specifically, the substitution of VP1-T75A affected the maturation cleavage of the VP0 precursor, leading to deficiencies in binding to receptor scavenger receptor class B2 (SCARB2), viral attachment, internalization, and even uncoating. For the mutants of T78A and G88A, a significant reduction in virion-associated genomic RNA was observed, suggesting that more noninfectious empty particles were produced during viral assembly. Interestingly, the VP1-T75A variant showed weak replication in cell cultures but demonstrated increased virulence in BALB/c neonatal mice, which might be due to the difference in viral receptors among mammalian species. Taken together, our data revealed the important role of the highly conserved residues T75, T78, and G88 in VP1 protein in the infectivity of EV-A71. Characterizing these novel determinants of EV-A71 virulence would contribute to rationally developing effective treatments and broadly protective vaccine candidates.

Importance: EV-A71 causes hand, foot, and mouth disease in children. In this study, we discovered three highly conserved residues at positions 75, 78, and 88 of the capsid protein VP1 as the potential virulence determinants of EV-A71, which can influence viral replication by regulating the assembly of EV-A71. Mechanistic studies revealed that VP1-T75A could affect the maturation cleavage of the VP0 precursor, resulting in deficiencies in binding to the receptor SCARB2, viral attachment, internalization, and even uncoating. For the mutants of T78A and G88A, more noninfectious empty particles were produced during viral assembly. The discovery of these novel determinants of EV-A71 virulence will promote the study of the pathogenesis of enteroviruses.

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VP1 中的新型毒力决定因子调控肠病毒-A71 的组装。

肠道病毒-A71（EV-A71）是仅次于柯萨奇病毒 A16 的第二大手足口病致病病毒。EV-A71 的囊壳由四种病毒结构蛋白（VP1-VP4）各 60 个拷贝组成。VP1 高度暴露于病毒表面，在病毒粒子的组装、附着和进入过程中发挥着核心作用。为了深入了解荚膜蛋白 VP1 第 75、78 和 88 位高度保守残基在这些过程中的作用，我们使用 EV-A71 的感染性 cDNA 克隆进行了丙氨酸扫描分析。我们的研究发现，VP1-T75A、VP1-T78A 和 VP1-G88A 的置换会影响病毒帽蛋白的组装，导致产生感染力降低的异常病毒。具体来说，VP1-T75A 的替代影响了 VP0 前体的成熟裂解，导致与清道夫受体 B2 类（SCARB2）结合、病毒附着、内化甚至解衣壳等方面的缺陷。在 T78A 和 G88A 突变体中，观察到与病毒相关的基因组 RNA 显著减少，这表明在病毒组装过程中产生了更多的非感染性空颗粒。有趣的是，VP1-T75A 变体在细胞培养物中的复制能力较弱，但在 BALB/c 新生小鼠中的毒力却有所增强，这可能是由于哺乳动物物种间病毒受体的差异造成的。总之，我们的数据揭示了 VP1 蛋白中高度保守的残基 T75、T78 和 G88 在 EV-A71 感染性中的重要作用。研究这些决定 EV-A71 致病性的新因素将有助于合理开发有效的治疗方法和具有广泛保护作用的候选疫苗：重要性：EV-A71 会导致儿童手足口病。在这项研究中，我们发现了位于荚膜蛋白质 VP1 第 75、78 和 88 位的三个高度保守残基是 EV-A71 的潜在毒力决定因子，它们可以通过调节 EV-A71 的组装来影响病毒复制。机理研究发现，VP1-T75A可影响VP0前体的成熟裂解，导致与受体SCARB2结合、病毒附着、内化甚至解衣等方面的缺陷。对于 T78A 和 G88A 突变体，在病毒组装过程中会产生更多的非感染性空颗粒。EV-A71 毒力的这些新决定因素的发现将促进对肠道病毒发病机制的研究。

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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来源期刊

Journal of Virology 医学-病毒学

CiteScore

10.10

自引率

7.40%

发文量

906

审稿时长

1 months

期刊介绍： Journal of Virology (JVI) explores the nature of the viruses of animals, archaea, bacteria, fungi, plants, and protozoa. We welcome papers on virion structure and assembly, viral genome replication and regulation of gene expression, genetic diversity and evolution, virus-cell interactions, cellular responses to infection, transformation and oncogenesis, gene delivery, viral pathogenesis and immunity, and vaccines and antiviral agents.