[RNA Virus Pathogenicity, Evolution, and Intrapopulation Interaction].

Uirusu Pub Date : 2023-01-01 DOI:10.2222/jsv.73.95
Yuta Shirogane
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Abstract

Measles virus (MeV), the causative agent of measles, can persist in the brain and cause a fatal neurodegenerative disease, subacute sclerosing panencephalitis (SSPE). Because wild-type MeV is not neurotropic, the virus is thought to evolve and acquire neuropathogenicity to cause SSPE. Our recent studies have shown that MeV acquires hyperfusogenic mutations in the fusion (F) gene that confer the ability to use cell adhesion molecule 1 (CADM1) and CADM2 as cis-acting receptor mimicking molecules and allow MeV to spread in neurons. Furthermore, under these conditions, multiple MeV genomes, rather than a single one, are likely to be transmitted transsynaptically between neurons through cell-cell fusion. Therefore, F proteins encoded by different genomes are co-expressed in infected cells, and positive and negative functional interactions between them can occur. These interactions determine the ability of the virus to spread in neurons as a population. In this article, we describe our studies to understand the mechanism by which MeV acquires neuropathogenicity in SSPE.

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[RNA 病毒的致病性、进化和种群内相互作用]。
麻疹病毒(Measles virus,MeV)是麻疹的病原体,可在大脑中持续存在,并引起一种致命的神经退行性疾病--亚急性硬化性全脑炎(Subacute sclerosing panencephalitis,SSPE)。由于野生型 MeV 不具有神经致病性,因此人们认为该病毒会进化并获得神经致病性,从而导致 SSPE。我们最近的研究表明,MeV在融合(F)基因中获得了超融合突变,这种突变赋予了MeV利用细胞粘附分子1(CADM1)和CADM2作为顺式作用受体模拟分子的能力,并允许MeV在神经元中传播。此外,在这些条件下,多个而非单个 MeV 基因组很可能通过细胞-细胞融合在神经元之间进行跨突触传播。因此,不同基因组编码的 F 蛋白会在受感染细胞中共同表达,它们之间会发生正负功能性相互作用。这些相互作用决定了病毒在神经元群体中的传播能力。本文介绍了我们为了解 MeV 在 SSPE 中获得神经致病性的机制而进行的研究。
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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