Protein phosphatase 1 suppresses PKR/EIF2α signaling during human cytomegalovirus infection.

IF 4 2区 医学 Q2 VIROLOGY Journal of Virology Pub Date : 2024-11-19 Epub Date: 2024-10-29 DOI:10.1128/jvi.00590-24
Erik M Lenarcic, Andrew E Hale, Heather A Vincent, Rebekah J Dickmander, Wes Sanders, Nathaniel J Moorman
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Abstract

Human cytomegalovirus (HCMV) is a ubiquitous pathogen that infects the majority of the world's population. Lytic HCMV replication in immunocompromised individuals or neonates can lead to severe disease in multiple organ systems and even death. The establishment of lytic replication is driven by the first viral proteins expressed upon infection, the immediate early proteins, which play a key role in creating an intracellular environment conducive to virus replication. Two immediate early proteins, the functional orthologs pTRS1 and pIRS1, stimulate immediate early gene expression by suppressing antiviral PKR/eIF2α signaling and enhance the translation of viral mRNAs independent of PKR antagonism. To better understand the molecular functions of pTRS1, we used proximity labeling proteomics to identify proteins that interact with pTRS1 in infected cells. Multiple novel host and viral interactors were identified, including the catalytic subunits of the protein phosphatase 1 (PP1) holoenzyme. Mutations to a PP1 catalytic subunit known to disrupt binding to PP1 regulatory subunits decreased binding to pTRS1. pTRS1 immune complexes contained phosphatase activity, and inhibition of phosphatase activity in transfected or infected cells reversed the ability of pTRS1 to inhibit the antiviral kinase PKR. Depletion of individual PP1 catalytic subunits decreased virus replication and increased the phosphorylation of the PKR substrate eIF2α. Taken together, our data suggest potential novel functions for pTRS1 and define a novel role for PP1 as an antagonist of the antiviral PKR/eIF2α signaling axis during HCMV infection.IMPORTANCEThe human cytomegalovirus (HCMV) pTRS1 and pIRS1 proteins are critical regulators of HCMV replication, both during primary infection and during reactivation from viral latency. Thus, defining the molecular functions of pTRS1/pIRS1 is important for understanding the molecular events controlling HCMV replication and viral disease. These data provide new insights into potential pTRS1 functional roles, providing a starting point for others to understand new features of infected cell biology. Another important result of this study is the finding that specific protein phosphatase 1 (PP1) regulatory subunits are required to suppress PKR/eIF2α signaling, a critical cellular innate immune defense to viral infection. These data lay the groundwork for future efforts to discover therapeutics that disrupt pTRS1 interaction with PP1 allowing cellular defenses to limit HCMV replication and disease.

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蛋白磷酸酶 1 在人类巨细胞病毒感染过程中抑制 PKR/EIF2α 信号传导
人类巨细胞病毒(HCMV)是一种无处不在的病原体,感染着世界上大多数人口。在免疫力低下的人或新生儿中,HCMV 的溶解复制可导致多个器官系统的严重疾病,甚至死亡。溶解复制是由感染后表达的第一种病毒蛋白--即刻早期蛋白--驱动的,它们在创造有利于病毒复制的细胞内环境方面起着关键作用。两种即刻早期蛋白(功能直向同源物 pTRS1 和 pIRS1)通过抑制抗病毒 PKR/eIF2α 信号传导来刺激即刻早期基因表达,并增强病毒 mRNA 的翻译,而不受 PKR 拮抗作用的影响。为了更好地了解 pTRS1 的分子功能,我们利用接近标记蛋白质组学鉴定了感染细胞中与 pTRS1 相互作用的蛋白质。我们发现了多种新型宿主和病毒相互作用因子,包括蛋白磷酸酶 1(PP1)全酶的催化亚基。pTRS1 免疫复合物含有磷酸酶活性,抑制转染或感染细胞中的磷酸酶活性可逆转 pTRS1 抑制抗病毒激酶 PKR 的能力。消耗单个 PP1 催化亚基可减少病毒复制并增加 PKR 底物 eIF2α 的磷酸化。重要意义人类巨细胞病毒(HCMV)pTRS1 和 pIRS1 蛋白是 HCMV 复制的关键调节因子,无论是在原发感染期间还是在病毒潜伏期重新激活期间都是如此。因此,确定 pTRS1/pIRS1 的分子功能对于了解控制 HCMV 复制和病毒疾病的分子事件非常重要。这些数据为了解 pTRS1 的潜在功能作用提供了新的视角,为其他人了解感染细胞生物学的新特征提供了一个起点。这项研究的另一项重要成果是发现特定的蛋白磷酸酶 1 (PP1) 调节亚基是抑制 PKR/eIF2α 信号传导所必需的,而 PKR/eIF2α 信号传导是病毒感染的一种关键的细胞先天免疫防御机制。这些数据为今后发现能破坏 pTRS1 与 PP1 相互作用的疗法奠定了基础,从而使细胞防御系统能限制 HCMV 的复制和疾病的发生。
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来源期刊
Journal of Virology
Journal of Virology 医学-病毒学
CiteScore
10.10
自引率
7.40%
发文量
906
审稿时长
1 months
期刊介绍: Journal of Virology (JVI) explores the nature of the viruses of animals, archaea, bacteria, fungi, plants, and protozoa. We welcome papers on virion structure and assembly, viral genome replication and regulation of gene expression, genetic diversity and evolution, virus-cell interactions, cellular responses to infection, transformation and oncogenesis, gene delivery, viral pathogenesis and immunity, and vaccines and antiviral agents.
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