Rethinking the drivers of coronavirus virulence and pathogenesis; toward an understanding of the dynamic world of mutations, indels, and recombination within the alphacoronaviruses.

IF 4.7 1区生物学 Q1 MICROBIOLOGY

mBio Pub Date : 2025-10-08 Epub Date: 2025-08-28 DOI:10.1128/mbio.01921-25

Ximena A Olarte-Castillo, Laura E Frazier, Jessica C Gomes Noll, Annette Choi, Gary R Whittaker

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Abstract

Alphacoronaviruses are widespread but understudied in comparison to betacoronaviruses. Within the alphacoronaviruses is the species Alphacoronavirus-1, which comprises distinct viruses of cats, dogs, and pigs, along with a separate species that infects mustelids-as well as other related viruses of pigs and circulating human viruses. High-pathogenicity feline coronavirus (FCoV) is infamous as the cause of feline infectious peritonitis (FIP), existing as two distinct genotypes (types 1 and 2) and transmitted as a low-pathogenicity virus. The high-pathogenicity variants arise in cats infected with FCoV, and while the mutations responsible remain enigmatic, the main determinant is the spike glycoprotein. FCoV-1 disease outcome is driven by a combination of both within- and between-host evolution. Virulence can be largely explained by the "internal mutation hypothesis," which argues that high-pathogenicity-but poorly transmissible-variants are selected in individual cats. Canine coronaviruses are generally considered low pathogenicity but can cause severe enteritis and can be systemic. Notably, the canine coronavirus spike gene periodically recombines with FCoV-1 to generate FCoV-2, exemplified by FCoV-23, which has caused a widespread outbreak of FIP in Cyprus and has a notably truncated spike N-terminal domain (NTD). In pigs, coronaviruses often cause severe gastrointestinal disease but can become respiratory and have low pathogenicity based on what can also be considered an "internal deletion" of the spike NTD. These viruses may exist as a dynamic "metavirome" (the sum of all viral genomes present in a sample) that is in a constant state of flux, presenting notable challenges for disease surveillance and management.

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重新思考冠状病毒毒力和发病机制的驱动因素对甲型冠状病毒中突变、缺失和重组的动态世界的理解。

甲型冠状病毒分布广泛，但与乙型冠状病毒相比，研究不足。在甲型冠状病毒中是甲型冠状病毒-1，它包括猫、狗和猪的不同病毒，以及感染mustmustid的一个单独的物种，以及其他相关的猪病毒和传播的人类病毒。高致病性猫冠状病毒（FCoV）作为猫传染性腹膜炎（FIP）的病因而臭名昭著，存在两种不同的基因型（1型和2型），并作为低致病性病毒传播。高致病性变异体出现在感染FCoV的猫中，虽然导致突变的原因仍然是谜，但主要决定因素是刺突糖蛋白。FCoV-1疾病的结果是由宿主内和宿主间进化共同驱动的。毒力很大程度上可以用“内部突变假说”来解释，该假说认为，高致病性但传播性差的变异是在单个猫中选择的。犬冠状病毒通常被认为是低致病性的，但可引起严重的肠炎，并可全身感染。值得注意的是，犬冠状病毒刺突基因周期性地与FCoV-1重组产生FCoV-2，例如FCoV-23，它导致了塞浦路斯FIP的广泛爆发，并且具有明显的刺突n端结构域（NTD）截断。在猪中，冠状病毒通常会引起严重的胃肠道疾病，但也可以变成呼吸道疾病，并且基于也可以被认为是NTD刺突的“内部缺失”，具有低致病性。这些病毒可能以动态的“元病毒组”（样本中所有病毒基因组的总和）的形式存在，处于不断变化的状态，对疾病监测和管理提出了显著的挑战。

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来源期刊

mBio MICROBIOLOGY-

CiteScore

10.50

自引率

3.10%

发文量

762

审稿时长

1 months

期刊介绍： mBio® is ASM''s first broad-scope, online-only, open access journal. mBio offers streamlined review and publication of the best research in microbiology and allied fields.