AXIN1 boosts antiviral response through IRF3 stabilization and induced phase separation

IF 40.8 1区 医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Dan-Ling Dai, Chu Xie, Lan-Yi Zhong, Shang-Xin Liu, Le-Le Zhang, Hua Zhang, Xing-Ping Wu, Zhou-Ming Wu, Kexin Kang, Yan Li, Ya-Meng Sun, Tian-Liang Xia, Chen-Song Zhang, Ao Zhang, Ming Shi, Cong Sun, Mei-Ling Chen, Ge-Xin Zhao, Guo-Long Bu, Yuan-Tao Liu, Kui-Yuan Huang, Zheng Zhao, Shu-Xin Li, Xiao-Yong Zhang, Yun-Fei Yuan, Shi-Jun Wen, Lingqiang Zhang, Bin-Kui Li, Qian Zhong, Mu-Sheng Zeng
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Abstract

Axis inhibition protein 1 (AXIN1), a scaffold protein interacting with various critical molecules, plays a vital role in determining cell fate. However, its impact on the antiviral innate immune response remains largely unknown. Here, we identify that AXIN1 acts as an effective regulator of antiviral innate immunity against both DNA and RNA virus infections. In the resting state, AXIN1 maintains the stability of the transcription factor interferon regulatory factor 3 (IRF3) by preventing p62-mediated autophagic degradation of IRF3. This is achieved by recruiting ubiquitin-specific peptidase 35 (USP35), which removes lysine (K) 48-linked ubiquitination at IRF3 K366. Upon virus infection, AXIN1 undergoes a phase separation triggered by phosphorylated TANK-binding kinase 1 (TBK1). This leads to increased phosphorylation of IRF3 and a boost in IFN-I production. Moreover, KYA1797K, a small molecule that binds to the AXIN1 RGS domain, enhances the AXIN1-IRF3 interaction and promotes the elimination of various highly pathogenic viruses. Clinically, patients with HBV-associated hepatocellular carcinoma (HCC) who show reduced AXIN1 expression in pericarcinoma tissues have low overall and disease-free survival rates, as well as higher HBV levels in their blood. Overall, our findings reveal how AXIN1 regulates IRF3 signaling and phase separation-mediated antiviral immune responses, underscoring the potential of the AXIN1 agonist KYA1797K as an effective antiviral agent.

Abstract Image

AXIN1 通过稳定 IRF3 和诱导相分离促进抗病毒反应
轴抑制蛋白 1(AXIN1)是一种与各种关键分子相互作用的支架蛋白,在决定细胞命运方面起着至关重要的作用。然而,它对抗病毒先天性免疫反应的影响在很大程度上仍不为人所知。在这里,我们发现 AXIN1 是抗 DNA 和 RNA 病毒感染的抗病毒先天免疫的有效调节因子。在静息状态下,AXIN1 通过阻止 p62 介导的 IRF3 自噬降解来维持转录因子干扰素调节因子 3(IRF3)的稳定性。这是通过招募泛素特异性肽酶 35(USP35)来实现的,USP35 可清除 IRF3 K366 上与赖氨酸(K)48 链接的泛素化。病毒感染后,AXIN1 在磷酸化 TANK 结合激酶 1(TBK1)的触发下发生相分离。这导致 IRF3 磷酸化增加,并促进 IFN-I 的产生。此外,KYA1797K 是一种能与 AXIN1 RGS 结构域结合的小分子,它能增强 AXIN1-IRF3 的相互作用,促进消除各种高致病性病毒。在临床上,HBV 相关性肝细胞癌(HCC)患者如果在癌周组织中 AXIN1 表达减少,其总生存率和无病生存率就会很低,血液中的 HBV 水平也会升高。总之,我们的研究结果揭示了 AXIN1 如何调控 IRF3 信号传导和相分离介导的抗病毒免疫反应,强调了 AXIN1 激动剂 KYA1797K 作为有效抗病毒药物的潜力。
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来源期刊
Signal Transduction and Targeted Therapy
Signal Transduction and Targeted Therapy Biochemistry, Genetics and Molecular Biology-Genetics
CiteScore
44.50
自引率
1.50%
发文量
384
审稿时长
5 weeks
期刊介绍: Signal Transduction and Targeted Therapy is an open access journal that focuses on timely publication of cutting-edge discoveries and advancements in basic science and clinical research related to signal transduction and targeted therapy. Scope: The journal covers research on major human diseases, including, but not limited to: Cancer,Cardiovascular diseases,Autoimmune diseases,Nervous system diseases.
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