Duck STING mediates antiviral autophagy directing the interferon signaling pathway to inhibit duck plague virus infection.

IF 3.7 1区 农林科学 Q1 VETERINARY SCIENCES
Bin Tian, Yanming Tian, Xuetong Wang, Dongjie Cai, Liping Wu, Mingshu Wang, Renyong Jia, Shun Chen, Dekang Zhu, Mafeng Liu, Qiao Yang, Ying Wu, Xinxin Zhao, Shaqiu Zhang, Di Sun, Juan Huang, Xumin Ou, Zhen Wu, Anchun Cheng
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引用次数: 0

Abstract

Migratory birds are important vectors for virus transmission, how migratory birds recognize viruses and viruses are sustained in birds is still enigmatic. As an animal model for waterfowl among migratory birds, studying and dissecting the antiviral immunity and viral evasion in duck cells may pave a path to deciphering these puzzles. Here, we studied the mechanism of antiviral autophagy mediated by duck STING in DEF cells. The results collaborated that duck STING could significantly enhance LC3B-II/I turnover, LC3B-EGFP puncta formation, and mCherry/EGFP ratio, indicating that duck STING could induce autophagy. The autophagy induced by duck STING is not affected by shRNA knockdown of ATG5 expression, deletion of the C-terminal tail of STING, or TBK1 inhibitor BX795 treatment, indicating that duck STING activated non-classical selective autophagy is independent of interaction with TBK1, TBK1 phosphorylation, and interferon (IFN) signaling. The STING R235A mutant and Sar1A/B kinase mutant abolished duck STING induced autophagy, suggesting binding with cGAMP and COPII complex mediated transport are the critical prerequisite. Duck STING interacted with LC3B through LIR motifs to induce autophagy, the LIR 4/7 motif mutants of duck STING abolished the interaction with LC3B, and neither activated autophagy nor IFN expression, indicating that duck STING associates with LC3B directed autophagy and dictated innate immunity activation. Finally, we found that duck STING mediated autophagy significantly inhibited duck plague virus (DPV) infection via ubiquitously degraded viral proteins. Our study may shed light on one scenario about the control and evasion of diseases transmitted by migratory birds.

鸭STING介导抗病毒自噬,引导干扰素信号通路抑制鸭瘟病毒感染。
候鸟是病毒传播的重要媒介,候鸟如何识别病毒以及病毒如何在鸟类体内存活仍是一个谜。作为候鸟中的水禽动物模型,研究和剖析鸭细胞的抗病毒免疫和病毒规避可能为破解这些谜题铺平道路。在此,我们研究了鸭 STING 在 DEF 细胞中介导的抗病毒自噬机制。结果表明,鸭STING能显著提高LC3B-II/I周转率、LC3B-EGFP点形成和mCherry/EGFP比值,表明鸭STING能诱导自噬。鸭STING诱导的自噬不受shRNA敲除ATG5表达、STING C端尾部缺失和TBK1抑制剂BX795处理的影响,表明鸭STING激活的非经典选择性自噬与TBK1相互作用、TBK1磷酸化和干扰素(IFN)信号转导无关。STING R235A突变体和Sar1A/B激酶突变体取消了鸭STING诱导的自噬,表明与cGAMP结合和COPII复合物介导的转运是关键的先决条件。鸭STING通过LIR基序与LC3B相互作用诱导自噬,鸭STING的LIR 4/7基序突变体取消了与LC3B的相互作用,既不激活自噬,也不激活IFN的表达,表明鸭STING与LC3B结合引导自噬,决定了先天性免疫的激活。最后,我们发现鸭 STING 介导的自噬通过泛在降解的病毒蛋白显著抑制了鸭瘟病毒(DPV)的感染。我们的研究可能会揭示候鸟传播疾病的控制和逃避的一种情况。
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
Veterinary Research
Veterinary Research 农林科学-兽医学
CiteScore
7.00
自引率
4.50%
发文量
92
审稿时长
3 months
期刊介绍: Veterinary Research is an open access journal that publishes high quality and novel research and review articles focusing on all aspects of infectious diseases and host-pathogen interaction in animals.
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