Inhibition of mitophagy via the EIF2S1-ATF4-PRKN pathway contributes to viral encephalitis.

Xiaowei Song, Yiliang Wang, Weixiangmin Zou, Zexu Wang, Wenyan Cao, Minting Liang, Feng Li, Qiongzhen Zeng, Zhe Ren, Yifei Wang, Kai Zheng
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Abstract

Introduction: Mitophagy, a selective form of autophagy responsible for maintaining mitochondrial homeostasis, regulates the antiviral immune response and acts as viral replication platforms to facilitate infection with various viruses. However, its precise role in herpes simplex virus 1 (HSV-1) infection and herpes simplex encephalitis (HSE) remains largely unknown.

Objectives: We aimed to investigate the regulation of mitophagy by HSV-1 neurotropic infection and its role in viral encephalitis, and to identify small compounds that regulate mitophagy to affect HSV-1 infection.

Methods: The antiviral effects of compounds were investigated by Western blot, RT-PCR and plaque assay. The changes of Parkin (PRKN)-mediated mitophagy and Nuclear Factor kappa B (NFKB)-mediated neuroinflammation were examined by TEM, RT-qPCR, Western blot and ELISA. The therapeutic effect of taurine or PRKN-overexpression was confirmed in the HSE mouse model by evaluating survival rate, eye damage, neurodegenerative symptoms, immunohistochemistry analysis and histopathology.

Results: HSV-1 infection caused the accumulation of damaged mitochondria in neuronal cells and in the brain tissue of HSE mice. Early HSV-1 infection led to mitophagy activation, followed by inhibition in the later viral infection. The HSV-1 proteins ICP34.5 or US11 deregulated the EIF2S1-ATF4 axis to suppress PRKN/Parkin mRNA expression, thereby impeding PRKN-dependent mitophagy. Consequently, inhibition of mitophagy by specific inhibitor midiv-1 promoted HSV-1 infection, whereas mitophagy activation by PRKN overexpression or agonists (CCCP and rotenone) attenuated HSV-1 infection and reduced the NF-κB-mediated neuroinflammation. Moreover, PRKN-overexpressing mice showed enhanced resistance to HSV-1 infection and ameliorated HSE pathogenesis. Furthermore, taurine, a differentially regulated gut microbial metabolite upon HSV-1 infection, acted as a mitophagy activator that transcriptionally promotes PRKN expression to stimulate mitophagy and to limit HSV-1 infection both in vitro and in vivo.

Conclusion: These results reveal the protective function of mitophagy in HSE pathogenesis and highlight mitophagy activation as a potential antiviral therapeutic strategy for HSV-1-related diseases.

通过 EIF2S1-ATF4-PRKN 途径抑制有丝分裂是病毒性脑炎的原因之一。
导言:有丝分裂是自噬的一种选择性形式,负责维持线粒体的稳态,调节抗病毒免疫反应,并作为病毒复制平台促进各种病毒的感染。然而,它在单纯疱疹病毒 1(HSV-1)感染和单纯疱疹性脑炎(HSE)中的确切作用在很大程度上仍然未知:我们旨在研究 HSV-1 神经性感染对有丝分裂的调控及其在病毒性脑炎中的作用,并找出调控有丝分裂以影响 HSV-1 感染的小化合物:方法:通过 Western 印迹、RT-PCR 和斑块试验研究化合物的抗病毒作用。通过TEM、RT-qPCR、Western blot和ELISA检测了Parkin(PRKN)介导的有丝分裂和核因子卡巴B(NFKB)介导的神经炎症的变化。通过评估存活率、眼损伤、神经退行性症状、免疫组化分析和组织病理学,证实了牛磺酸或PRKN表达对HSE小鼠模型的治疗效果:结果:HSV-1 感染导致神经元细胞和 HSE 小鼠脑组织中受损线粒体的积累。早期的 HSV-1 感染会导致有丝分裂活化,而后期的病毒感染则会抑制有丝分裂。HSV-1蛋白ICP34.5或US11改变了EIF2S1-ATF4轴,抑制了PRKN/Parkin mRNA的表达,从而阻碍了PRKN依赖的有丝分裂。因此,特异性抑制剂 midiv-1 对有丝分裂的抑制促进了 HSV-1 感染,而 PRKN 过表达或激动剂(CCCP 和鱼藤酮)对有丝分裂的激活则减轻了 HSV-1 感染并减少了 NF-κB 介导的神经炎症。此外,PRKN过表达小鼠对HSV-1感染的抵抗力增强,HSE发病机制也有所改善。此外,牛磺酸是一种在HSV-1感染时受到不同调控的肠道微生物代谢产物,可作为一种有丝分裂激活剂,通过转录促进PRKN的表达,从而刺激有丝分裂并限制HSV-1在体外和体内的感染:这些结果揭示了有丝分裂在 HSE 发病机制中的保护功能,并强调了激活有丝分裂是治疗 HSV-1 相关疾病的一种潜在抗病毒治疗策略。
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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