Characterization of viroplasm-like structures by co-expression of NSP5 and NSP2 across rotavirus species A to J.

IF 4 2区医学 Q2 VIROLOGY

Journal of Virology Pub Date : 2024-09-17 Epub Date: 2024-08-28 DOI:10.1128/jvi.00975-24

Melissa Lee, Ariana Cosic, Kurt Tobler, Claudio Aguilar, Cornel Fraefel, Catherine Eichwald

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引用次数: 0

Abstract

Rotaviruses (RVs) are classified into nine species, A-D and F-J, with species A being the most studied. In rotavirus of species A (RVA), replication occurs in viroplasms, which are cytosolic globular inclusions composed of main building block proteins NSP5, NSP2, and VP2. The co-expression of NSP5 with either NSP2 or VP2 in uninfected cells leads to the formation of viroplasm-like structures (VLSs). Although morphologically identical to viroplasms, VLSs do not produce viral progeny but serve as excellent tools for studying complex viroplasms. A knowledge gap exists regarding non-RVA viroplasms due to the lack of specific antibodies and suitable cell culture systems. In this study, we explored the ability of NSP5 and NSP2 from non-RVA species to form VLSs. The co-expression of these two proteins led to globular VLSs in RV species A, B, D, F, G, and I, while RVC formed filamentous VLSs. The co-expression of NSP5 and NSP2 of RV species H and J did not result in VLS formation. Interestingly, NSP5 of all RV species self-oligomerizes, with the ordered C-terminal region, termed the tail, being necessary for self-oligomerization of RV species A-C and G-J. Except for NSP5 from RVJ, all NSP5 interacted with their cognate NSP2. We also found that interspecies VLS are formed between closely related RV species B with G and D with F. Additionally, VLS from RVH and RVJ formed when the tail of NSP5 RVH and RVJ was replaced by the tail of NSP5 from RVA and co-expressed with their respective NSP2.

Importance: Rotaviruses (RVs) are classified into nine species, A-D and F-J, infecting mammals and birds. Due to the lack of research tools, all cumulative knowledge on RV replication is based on RV species A (RVA). The RV replication compartments are globular cytosolic structures named viroplasms, which have only been identified in RV species A. In this study, we examined the formation of viroplasm-like structures (VLSs) by the co-expression of NSP5 with NSP2 across RV species A to J. Globular VLSs formed for RV species A, B, D, F, G, and I, while RV species C formed filamentous structures. The RV species H and J did not form VLS with their cognates NSP5 and NSP2. Similar to RVA, NSP5 self-oligomerizes in all RV species, which is required for VLS formation. This study provides basic knowledge of the non-RVA replication mechanisms, which could help develop strategies to halt virus infection across RV species.

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通过共同表达轮状病毒 A 至 J 型的 NSP5 和 NSP2，确定类病毒质结构的特征。

轮状病毒（RV）分为 A-D 和 F-J 九个种，其中研究最多的是 A 种。在 A 种轮状病毒（RVA）中，复制发生在病毒浆液中，病毒浆液是由主要结构单元蛋白 NSP5、NSP2 和 VP2 组成的细胞膜球状包涵体。在未感染的细胞中，NSP5 与 NSP2 或 VP2 共同表达会形成类病毒浆状结构（VLS）。虽然在形态上与病毒浆膜相同，但 VLSs 不会产生病毒后代，而是研究复杂病毒浆膜的绝佳工具。由于缺乏特异性抗体和合适的细胞培养系统，关于非 RVA 病毒原体的知识存在空白。在本研究中，我们探讨了非 RVA 物种的 NSP5 和 NSP2 形成 VLS 的能力。在 RV 物种 A、B、D、F、G 和 I 中，共表达这两种蛋白可形成球状 VLS，而 RVC 则形成丝状 VLS。在 RV H 和 J 中，NSP5 和 NSP2 的共表达不会导致 VLS 的形成。有趣的是，所有 RV 物种的 NSP5 都能自聚，有序的 C 端区域（称为尾部）是 RV 物种 A-C 和 G-J 自聚的必要条件。除来自 RVJ 的 NSP5 外，所有 NSP5 都与其同源的 NSP2 相互作用。此外，当 RVH 和 RVJ 的 NSP5 尾部被 RVA 的 NSP5 尾部取代并与各自的 NSP2 共同表达时，RVH 和 RVJ 的 VLS 也会形成：轮状病毒（RV）分为 A-D 和 F-J 九种，感染哺乳动物和鸟类。由于缺乏研究工具，所有关于轮状病毒复制的累积知识都是基于轮状病毒 A 种（RVA）。RV 复制区是球状胞浆结构，被命名为 "病毒浆"（viroplasms），目前只在 RV A 种中发现了这种结构。在本研究中，我们考察了 NSP5 与 NSP2 共同表达在 RV A 至 J 种中病毒浆样结构（VLS）的形成情况。RV 物种 H 和 J 没有与其同源物 NSP5 和 NSP2 形成 VLS。与 RVA 相似，NSP5 在所有 RV 物种中都会自聚，而这是形成 VLS 所必需的。这项研究提供了有关非 RVA 复制机制的基本知识，有助于开发出阻止病毒跨 RV 物种感染的策略。

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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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.