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核衣壳抑制剂靶向甲型流感病毒感染中病毒核糖核蛋白 - Rab11 复合物的细胞质运输。

Nucleozin targets cytoplasmic trafficking of viral ribonucleoprotein-Rab11 complexes in influenza A virus infection.

机构信息

Division of Virology, Department of Pathology, University of Cambridge, Cambridge, United Kingdom.

出版信息

J Virol. 2013 Apr;87(8):4694-703. doi: 10.1128/JVI.03123-12. Epub 2013 Feb 13.

DOI:10.1128/JVI.03123-12
PMID:23408618
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3624347/
Abstract

Novel antivirals are needed to supplement existing control strategies for influenza A virus (IAV). A promising new class of drug, exemplified by the compound nucleozin, has recently been identified that targets the viral nucleoprotein (NP). These inhibitors are thought to act as "molecular staples" that stabilize interactions between NP monomers, promoting the formation of nonfunctional aggregates. Here we detail the inhibitory mechanism of nucleozin, finding that the drug has both early- and late-acting effects on the IAV life cycle. When present at the start of infection, it inhibited viral RNA and protein synthesis. However, when added at later time points, it still potently blocked the production of infectious progeny but without affecting viral macromolecular synthesis. Instead, nucleozin blocked the cytoplasmic trafficking of ribonucleoproteins (RNPs) that had undergone nuclear export, promoting the formation of large perinuclear aggregates of RNPs along with cellular Rab11. This effect led to the production of much reduced amounts of often markedly smaller virus particles. We conclude that the primary target of nucleozin is the viral RNP, not NP, and this work also provides proof of the principle that IAV replication can be effectively inhibited by blocking cytoplasmic trafficking of the viral genome.

摘要

需要新型抗病毒药物来补充现有的流感 A 病毒 (IAV) 控制策略。最近发现了一类有前途的新药,以化合物核昔为代表,它针对病毒核蛋白 (NP)。这些抑制剂被认为是“分子钉”,稳定 NP 单体之间的相互作用,促进无功能聚集体的形成。在这里,我们详细描述了核昔的抑制机制,发现该药物对 IAV 生命周期具有早期和晚期作用。当在感染开始时存在时,它抑制病毒 RNA 和蛋白质合成。然而,当在稍后时间点添加时,它仍然强烈阻断感染性后代的产生,但不影响病毒大分子合成。相反,核昔阻断了已经历核输出的核糖核蛋白 (RNP) 的细胞质运输,促进了 RNP 在核周的大聚集体的形成,同时伴随着细胞 Rab11。这种效应导致产生的病毒颗粒数量明显减少,且通常明显变小。我们得出结论,核昔的主要靶标是病毒 RNP,而不是 NP,这项工作还提供了证据,证明通过阻断病毒基因组的细胞质运输可以有效地抑制 IAV 复制。

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