Nature of viruses and pandemics: Coronaviruses

Q4 Immunology and Microbiology Current research in immunology Pub Date : 2022-01-01 DOI:10.1016/j.crimmu.2022.08.003

Luis Enjuanes, Isabel Sola, Sonia Zúñiga, José M. Honrubia, Melissa Bello-Pérez, Alejandro Sanz-Bravo, Ezequiel González-Miranda, Jesús Hurtado-Tamayo, Ricardo Requena-Platek, Li Wang, Diego Muñoz-Santos, Carlos M. Sánchez, Ana Esteban, Jorge Ripoll-Gómez

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引用次数: 3

Abstract

Coronaviruses (CoVs) have the largest genome among RNA viruses and store large amounts of information without genome integration as they replicate in the cell cytoplasm. The replication of the virus is a continuous process, whereas the transcription of the subgenomic mRNAs is a discontinuous one, involving a template switch, which resembles a high frequency recombination mechanism that may favor virus genome variability. The origin of the three deadly human CoVs SARS-CoV, MERS-CoV and SARS-CoV-2 are zoonotic events. SARS-CoV-2 has incorporated in its spike protein a furine proteolytic site that facilitates the activation of the virus in any tissue, making this CoV strain highly polytropic and pathogenic. Using MERS-CoV as a model, a propagation-deficient RNA replicon was generated by removing E protein gene (essential for viral morphogenesis and involved in virulence), and accessory genes 3, 4a, 4b and 5 (responsible for antagonism of the innate immune response) to attenuate the virus: MERS-CoV-Δ[3,4a,4b,5,E]. This RNA replicon is strongly attenuated and elicits sterilizing protection after a single immunization in transgenic mice with the receptor for MERS-CoV, making it a promising vaccine candidate for this virus and an interesting platform for vector-based vaccine development. A strategy could be developed for the design of RNA replicon vaccines for other human pathogenic coronaviruses.

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病毒和大流行的性质:冠状病毒

冠状病毒(cov)是RNA病毒中基因组最大的病毒，在细胞质中复制时无需整合基因组就能存储大量信息。病毒的复制是一个连续的过程，而亚基因组mrna的转录是一个不连续的过程，涉及模板开关，这类似于一种高频重组机制，可能有利于病毒基因组的变异性。三种致命的人类冠状病毒SARS-CoV、MERS-CoV和SARS-CoV-2的起源是人畜共患事件。SARS-CoV-2在其刺突蛋白中加入了一个嘌呤蛋白水解位点，该位点有助于在任何组织中激活病毒，使该冠状病毒株具有高度多性性和致病性。以MERS-CoV为模型，通过去除E蛋白基因(病毒形态发生所必需并参与毒力)和辅助基因3,4a,4b和5(负责对抗先天免疫反应)产生繁殖缺陷RNA复制子，以减弱病毒:MERS-CoV-Δ[3,4a,4b,5,E]。该RNA复制子在具有MERS-CoV受体的转基因小鼠中具有强减毒作用，在单次免疫后可引起灭菌保护，使其成为该病毒的有希望的候选疫苗和基于载体的疫苗开发的有趣平台。可以开发一种策略，用于设计针对其他人类致病性冠状病毒的RNA复制子疫苗。

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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