多功能病毒蛋白 γ34.5 操纵核仁蛋白 NOP53 以实现 HSV-1 的最佳病毒复制。

Multifunctional viral protein γ34.5 manipulates nucleolar protein NOP53 for optimal viral replication of HSV-1.

机构信息

Key Laboratory of Animal Epidemiology of the Ministry of Agriculture, College of Veterinary Medicine, China Agricultural University, 100193, Beijing, China.

出版信息

Cell Death Dis. 2018 Jan 24;9(2):103. doi: 10.1038/s41419-017-0116-2.

DOI:10.1038/s41419-017-0116-2

PMID:29367603

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5833762/

Abstract

To ensure efficient virus replication, herpes simplex virus type 1 (HSV-1) encodes several viral proteins to counter host defense response upon infection. Among these proteins, the multifunctional viral protein γ34.5 crucially interferes with or disrupts several antiviral pathways at multiple levels. The current study shows that γ34.5 utilizes nucleolar protein NOP53 to facilitate the dephosphorylation of eukaryotic initiation factor eIF2α for efficient viral translation. Our study shows that: (1) ectopic expression of NOP53 greatly increases the intracellular and extracellular viral yields of HSV-1 (wild strain F) in type I interferon-deficient Vero cells, and more subtly promotes viral replication of γ34.5 deletion mutant virus HSV-1/Δγ34.5. (2) NOP53 is migrated from nuclei in HSV-1/F infected cells, but is redistributed incompletely after infection by either HSV-1/Δγ34.5 or ICP4 deletion mutant virus HSV-1/d120 (replication inadequate). Ectopic expression of γ34.5, consequently, induces cytoplasmic translocation of NOP53 in response to HSV-1/Δγ34.5 infection. (3) Increase of NOP53, in two forms of transient transfection and in vitro expression, attenuates the phosphorylation level of eIF2α in HSV-1/F infected cells, but fails to affect eIF2α phosphorylation induced by HSV-1/Δγ34.5 infection. (4) Knockdown of NOP53, which impairs the specific interaction between γ34.5 and protein phosphatase PP1α, disrupts the ability of γ34.5 to maintain HSV-1 virulence. (5) NOP53 knockdown also significantly reduces tissue damage and decreases viral yield in livers of HSV-1 infected mice. Our findings expand the understanding of the underlying mechanism by which viral protein γ34.5 induces NOP53 redistribution; cytoplasmic NOP53 facilitates γ34.5 recruitment of PP1α to dephosphorylate eIF2α, for optimal viral replication. This paper also demonstrates that blocking the specific interaction between γ34.5 and PP1α would be a useful approach for the development of antiviral agents.

摘要

为确保病毒高效复制，单纯疱疹病毒 1 型（HSV-1）编码多种病毒蛋白，在感染后对抗宿主防御反应。在这些蛋白中，多功能病毒蛋白 γ34.5 在多个水平的多种抗病毒途径上发挥关键的干扰或破坏作用。本研究显示，γ34.5 利用核仁蛋白 NOP53 促进真核起始因子 eIF2α 的去磷酸化，从而促进病毒翻译。我们的研究表明：（1）在 I 型干扰素缺陷的 Vero 细胞中，过表达 NOP53 会极大地增加 HSV-1（野生株 F）的细胞内和细胞外病毒产量，并且更微妙地促进 γ34.5 缺失突变病毒 HSV-1/Δγ34.5 的病毒复制。（2）在 HSV-1/F 感染的细胞中，NOP53 从核内迁移，但在感染 HSV-1/Δγ34.5 或 ICP4 缺失突变病毒 HSV-1/d120（复制不足）后不完全重新分布。因此，γ34.5 的过表达会导致 NOP53 在 HSV-1/Δγ34.5 感染时发生细胞质易位。（3）在 HSV-1/F 感染的细胞中，NOP53 的瞬时转染和体外表达的两种形式增加了 eIF2α 的磷酸化水平，但不能影响 HSV-1/Δγ34.5 感染诱导的 eIF2α 磷酸化。（4）NOP53 的敲低会破坏 γ34.5 与蛋白磷酸酶 PP1α 之间的特异性相互作用，从而破坏 γ34.5 维持 HSV-1 毒力的能力。（5）NOP53 的敲低也显著降低了 HSV-1 感染小鼠肝脏中的组织损伤和病毒产量。我们的研究结果扩展了对病毒蛋白 γ34.5 诱导 NOP53 重分布的潜在机制的理解；细胞质 NOP53 促进了 γ34.5 募集 PP1α 来使 eIF2α 去磷酸化，从而实现最佳病毒复制。本文还表明，阻断 γ34.5 与 PP1α 之间的特异性相互作用将是开发抗病毒药物的一种有用方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e1a8/5833762/47063042760d/41419_2017_116_Fig1_HTML.jpg

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多功能病毒蛋白 γ34.5 操纵核仁蛋白 NOP53 以实现 HSV-1 的最佳病毒复制。

Multifunctional viral protein γ34.5 manipulates nucleolar protein NOP53 for optimal viral replication of HSV-1.

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