甲病毒诱导的转录和翻译阻断在阻止应激颗粒形成中起主要作用。
Alphavirus-induced transcriptional and translational shutoffs play major roles in blocking the formation of stress granules.
机构信息
Department of Microbiology, University of Alabama at Birmingham , Birmingham, Alabama, USA.
出版信息
J Virol. 2023 Nov 30;97(11):e0097923. doi: 10.1128/jvi.00979-23. Epub 2023 Oct 30.
Abstract
Our study highlights the mechanisms behind the cell's resistance to stress granule (SG) formation after infection with Old World alphaviruses. Shortly after infection, the replication of these viruses hinders the cell's ability to form SGs, even when exposed to chemical inducers such as sodium arsenite. This resistance is primarily attributed to virus-induced transcriptional and translational shutoffs, rather than interactions between the viral nsP3 and the key components of SGs, G3BP1/2, or the ADP-ribosylhydrolase activity of nsP3 macro domain. While interactions between G3BPs and nsP3 are essential for the formation of viral replication complexes, their role in regulating SG development appears to be small, if any. Cells harboring replicating viruses or replicons with lower abilities to inhibit transcription and/or translation, but expressing wild-type nsP3, retain the ability for SG development. Understanding these mechanisms of regulation of SG formation contributes to our knowledge of viral replication and the intricate relationships between alphaviruses and host cells.
摘要
我们的研究强调了细胞在感染旧世界甲病毒后抵抗应激颗粒 (SG) 形成的机制。在感染后不久,这些病毒的复制会阻碍细胞形成 SG 的能力,即使暴露于化学诱导剂(如亚砷酸钠)也是如此。这种抗性主要归因于病毒诱导的转录和翻译关闭,而不是病毒 nsP3 与 SG 的关键成分 G3BP1/2 之间的相互作用,或 nsP3 宏结构域的 ADP-ribosylhydrolase 活性。虽然 G3BPs 与 nsP3 之间的相互作用对于病毒复制复合物的形成至关重要,但它们在调节 SG 发育中的作用似乎很小,如果有的话。携带复制病毒或复制子的细胞,其抑制转录和/或翻译的能力较低,但表达野生型 nsP3,则保留形成 SG 的能力。了解这些 SG 形成调控机制有助于我们了解病毒复制以及甲病毒和宿主细胞之间复杂的关系。
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Hypervariable Domain of Eastern Equine Encephalitis Virus nsP3 Redundantly Utilizes Multiple Cellular Proteins for Replication Complex Assembly.东部马脑炎病毒nsP3的高变区通过冗余利用多种细胞蛋白来组装复制复合体。
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