ESCRT-III-dependent and -independent egress of herpesviruses

IF 2 Q4 VIROLOGY Frontiers in virology Pub Date : 2024-02-22 DOI:10.3389/fviro.2024.1378054

Jun Arii

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Abstract

Enveloped viruses complete their replication cycle by forming virions that bud from infected cells through membrane scission. The mechanisms by which this is achieved are less well-understood than the well-characterized membrane scission of vesicles budding inwards into the cytosol. The scission of vesicles that bud away from the cytosol is mediated by machinery of the endosomal sorting complexes required for transport (ESCRT)-III, which is highjacked by viruses of several different families. Other groups of viruses can bud independently of ESCRT-III activity. It has not been fully elucidated how the latter achieve this in the absence of host ESCRT-III, but it is known that some viral proteins directly mediate membrane scission. The Herpesviridae constitute a family of highly diverse viruses that bud at the inner nuclear membrane and cytoplasmic membranes in infected cells. Many investigators have attempted to determine the mechanism of membrane scission during herpesvirus budding, and have found this to be complex, not exactly conforming to either of the two methods. The present review attempts to synthesize the disparate findings into a model of herpesvirus egress based on both ESCRT-mediated and viral protein-mediated mechanisms.

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依赖于和不依赖于 ESCRT-III 的疱疹病毒出路

包膜病毒通过膜裂解从感染细胞中形成病毒芽来完成复制周期。与向内萌发进入细胞质的囊泡的膜裂解相比，实现这一过程的机制尚不十分清楚。囊泡从细胞膜上脱落是由内体分拣转运复合物（ESCRT）-III 介导的。其他类病毒可以独立于 ESCRT-III 的活动而萌发。目前还没有完全阐明后者是如何在缺乏宿主 ESCRT-III 的情况下实现这一目标的，但已知一些病毒蛋白直接介导了膜裂解。疱疹病毒科是一个种类繁多的病毒家族，它们在受感染细胞的核内膜和细胞质膜上萌发。许多研究人员试图确定疱疹病毒出芽过程中膜裂解的机制，但发现这一机制非常复杂，并不完全符合两种方法中的任何一种。本综述试图将不同的研究结果综合为一个基于 ESCRT 介导和病毒蛋白介导机制的疱疹病毒出芽模型。

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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Frontiers in virology

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