PEDV evades MHC-I-related immunity through nsp1-mediated NLRC5 translation inhibition.

IF 4 2区医学 Q2 VIROLOGY

Journal of Virology Pub Date : 2024-11-19 Epub Date: 2024-10-31 DOI:10.1128/jvi.01421-24

Xiang Liu, Meng Zhang, Lingdan Yin, Li Kang, Yi Luo, Xiaodong Wang, Li Ren, Guozhong Zhang, Yao Yao, Pinghuang Liu

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Abstract

Major histocompatibility complex class I (MHC-I) plays crucial roles against viral infections not only by initiating CD8⁺ T cell immunity but also by modulating natural killer (NK) cell cytotoxicity. Understanding how viruses precisely regulate MHC-I to optimize their infection is important; however, the manipulation of MHC-I molecules by porcine epidemic diarrhea virus (PEDV) remains unclear. In this study, we demonstrate that PEDV infection promotes the transcription of NLRC5, a key transactivator of MHC-I, in several porcine cell lines and in vivo. Paradoxically, no increase in MHC-I expression is observed after PEDV infection both in vitro and in vivo. Mechanistic studies revealed that PEDV infection inhibits the translation of PEDV-elicited NLRC5 mRNA and the expression of downstream MHC-I proteins, without affecting the expression of physiological NLRC5 and MHC-I proteins. Through viral protein screening, we identified PEDV nonstructural protein 1 (nsp1) as the critical antagonist that inhibits NLRC5-mediated upregulation of MHC-I, and the nsp1's inhibitory effect on MHC-I requires the motif of 15 amino acids at its C-terminus. Notably, our results revealed that the cytotoxic ability of NK cells against PEDV-infected cells is similar to that against healthy cells. Collectively, our findings uncover an immune evasion mechanism by which PEDV-infected cells masquerade as healthy cells to evade NK and T cell immunity. This is achieved by targeting NLRC5, a key MHC-I transcriptional regulator, via nsp1.IMPORTANCEPorcine epidemic diarrhea virus (PEDV) is a highly contagious enteric coronavirus that inflicts substantial financial losses on the swine industry. Major histocompatibility complex class I (MHC-I) is a critical factor influencing both CD8⁺ T cell and natural killer (NK) cell immunity. However, how PEDV manipulates MHC-I expression to optimize its infection process remains largely unknown. In this study, we demonstrate that PEDV's nonstructural protein 1 (nsp1) inhibits virus-mediated induction of MHC-I expression by directly targeting NLRC5, a key MHC-I transactivator. Intriguingly, nsp1 does not reduce physiological NLRC5 and MHC-I expression. This selective inhibition of virus-elicited NLRC5 mRNA translation allows PEDV-infected cells to masquerade as healthy cells, thereby evading CD8⁺ T cell and NK cell cytotoxicity. Our findings provide unique insights into the mechanisms by which PEDV evades CD8⁺ T cell and NK cell immunity.

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PEDV 通过 nsp1 介导的 NLRC5 翻译抑制逃避 MHC-I 相关免疫。

主要组织相容性复合体 I 类（MHC-I）不仅通过启动 CD8+ T 细胞免疫，还通过调节自然杀伤（NK）细胞的细胞毒性，在抗病毒感染方面发挥着至关重要的作用。了解病毒如何精确调节 MHC-I 以优化其感染非常重要；然而，猪流行性腹泻病毒（PEDV）对 MHC-I 分子的操纵仍不清楚。在这项研究中，我们证明了猪流行性腹泻病毒（PEDV）感染会促进 NLRC5 的转录，而 NLRC5 是 MHC-I 的一个关键转录因子。矛盾的是，在体外和体内感染 PEDV 后，均未观察到 MHC-I 表达的增加。机理研究发现，PEDV 感染会抑制 PEDV 诱导的 NLRC5 mRNA 翻译和下游 MHC-I 蛋白的表达，但不会影响生理性 NLRC5 和 MHC-I 蛋白的表达。通过病毒蛋白筛选，我们发现 PEDV 非结构蛋白 1（nsp1）是抑制 NLRC5 介导的 MHC-I 上调的关键拮抗剂，而 nsp1 对 MHC-I 的抑制作用需要其 C 端 15 个氨基酸的基团。值得注意的是，我们的研究结果表明，NK细胞对PEDV感染细胞的细胞毒能力与对健康细胞的细胞毒能力相似。总之，我们的研究结果揭示了一种免疫逃避机制，PEDV 感染细胞通过伪装成健康细胞来逃避 NK 和 T 细胞免疫。这一机制是通过 nsp1 靶向 MHC-I 关键转录调控因子 NLRC5 而实现的。主要组织相容性复合体 I 类（MHC-I）是影响 CD8+ T 细胞和自然杀伤（NK）细胞免疫的关键因素。然而，PEDV 如何操纵 MHC-I 的表达以优化其感染过程在很大程度上仍是未知数。在这项研究中，我们证明了 PEDV 的非结构蛋白 1（nsp1）通过直接靶向关键的 MHC-I 转活体 NLRC5 来抑制病毒介导的 MHC-I 表达。耐人寻味的是，nsp1 不会降低生理性 NLRC5 和 MHC-I 的表达。这种对病毒诱导的 NLRC5 mRNA 翻译的选择性抑制使 PEDV 感染细胞得以伪装成健康细胞，从而逃避 CD8+ T 细胞和 NK 细胞的细胞毒性。我们的研究结果为了解 PEDV 规避 CD8+ T 细胞和 NK 细胞免疫的机制提供了独特的见解。

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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来源期刊

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.