RTP4通过靶向病毒NS1蛋白限制甲型流感病毒感染。

Virology Pub Date : 2025-01-07 DOI:10.1016/j.virol.2025.110397

Xueying Lv, Tian Zheng, Xiaobo Lei, Lili Ren, Shiyi Zhao, Jingfeng Wang, Zhou Zhuo, Jianwei Wang

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引用次数: 0

摘要

甲型流感病毒通过其非结构蛋白1（NS1）抑制RIG-I的激活，从而逃避宿主的先天性免疫反应以建立感染。在这里，我们报告了受体转运蛋白 4（RTP4）--一种干扰素刺激基因（ISG）--靶向 NS1 来抑制甲型流感病毒感染。RTP4的缺失会显著增加甲型流感病毒的繁殖，而NS1缺失病毒则不受影响。从机理上讲，RTP4 以 RNA 依赖性方式与 NS1 相互作用，并将其从 TRIM25-RIG-I 复合物中分离出来，从而恢复 TRIM25 介导的 RIG-I K63 链接泛素化和随后的 IRF3 激活。RTP4 的抗病毒活性需要锌指结构域中进化保守的 CXXC 基序和 H149 残基，这些基序和残基的突变破坏了 RTP4-NS1 的相互作用，削弱了 RTP4 挽救 RIG-I 介导的信号转导的能力。总之，我们的研究结果让我们深入了解了 ISG 通过重新激活宿主抗病毒信号来限制甲型流感病毒复制的机制。

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RTP4 restricts influenza A virus infection by targeting the viral NS1 protein.

The influenza A virus evades the host innate immune response to establish infection by inhibiting RIG-I activation through its nonstructural protein 1 (NS1). Here, we reported that receptor-transporting protein 4 (RTP4), an interferon-stimulated gene (ISG), targets NS1 to inhibit influenza A virus infection. Depletion of RTP4 significantly increased influenza A virus multiplication, while NS1-deficient viruses were unaffected. Mechanistically, RTP4 interacts with NS1 in an RNA-dependent manner and sequesters it from the TRIM25-RIG-I complex, thereby restoring TRIM25-mediated RIG-I K63-linked ubiquitination and subsequent activation of IRF3. Antiviral activity of RTP4 requires the evolutionarily conserved CXXC motifs and an H149 residue in the zinc finger domain, mutations of which disrupted RTP4-NS1 interaction and abrogated the ability of RTP4 to rescue RIG-I-mediated signaling. Collectively, our findings provided insights into the mechanism by which an ISG restricts influenza A virus replication by reactivating host antiviral signaling.

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Virology

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