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NRF1 介导的线粒体生物发生拮抗先天抗病毒免疫。

NRF1-mediated mitochondrial biogenesis antagonizes innate antiviral immunity.

机构信息

State Key Laboratory of Medicinal Chemical Biology, Frontiers Science Center for Cell Responses, Tianjin Key Laboratory of Protein Science, College of Life Sciences, Nankai University, Tianjin, China.

School of Statistics and Data Science, LPMC and KLMDASR, Nankai University, Tianjin, China.

出版信息

EMBO J. 2023 Aug 15;42(16):e113258. doi: 10.15252/embj.2022113258. Epub 2023 Jul 6.

DOI:10.15252/embj.2022113258
PMID:37409632
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10425878/
Abstract

Mitochondrial biogenesis is the process of generating new mitochondria to maintain cellular homeostasis. Here, we report that viruses exploit mitochondrial biogenesis to antagonize innate antiviral immunity. We found that nuclear respiratory factor-1 (NRF1), a vital transcriptional factor involved in nuclear-mitochondrial interactions, is essential for RNA (VSV) or DNA (HSV-1) virus-induced mitochondrial biogenesis. NRF1 deficiency resulted in enhanced innate immunity, a diminished viral load, and morbidity in mice. Mechanistically, the inhibition of NRF1-mediated mitochondrial biogenesis aggravated virus-induced mitochondrial damage, promoted the release of mitochondrial DNA (mtDNA), increased the production of mitochondrial reactive oxygen species (mtROS), and activated the innate immune response. Notably, virus-activated kinase TBK1 phosphorylated NRF1 at Ser318 and thereby triggered the inactivation of the NRF1-TFAM axis during HSV-1 infection. A knock-in (KI) strategy that mimicked TBK1-NRF1 signaling revealed that interrupting the TBK1-NRF1 connection ablated mtDNA release and thereby attenuated the HSV-1-induced innate antiviral response. Our study reveals a previously unidentified antiviral mechanism that utilizes a NRF1-mediated negative feedback loop to modulate mitochondrial biogenesis and antagonize innate immune response.

摘要

线粒体生物发生是产生新的线粒体以维持细胞内稳态的过程。在这里,我们报告病毒利用线粒体生物发生来拮抗先天抗病毒免疫。我们发现核呼吸因子-1(NRF1),一种参与核-线粒体相互作用的重要转录因子,对于 RNA(VSV)或 DNA(HSV-1)病毒诱导的线粒体生物发生是必不可少的。NRF1 缺陷导致先天免疫增强、病毒载量降低和小鼠发病率降低。在机制上,抑制 NRF1 介导的线粒体生物发生加剧了病毒诱导的线粒体损伤,促进了线粒体 DNA(mtDNA)的释放,增加了线粒体活性氧(mtROS)的产生,并激活了先天免疫反应。值得注意的是,病毒激活的激酶 TBK1 在 Ser318 处磷酸化 NRF1,从而在 HSV-1 感染期间触发 NRF1-TFAM 轴的失活。模拟 TBK1-NRF1 信号的敲入(KI)策略表明,中断 TBK1-NRF1 连接可消除 mtDNA 释放,从而减弱 HSV-1 诱导的先天抗病毒反应。我们的研究揭示了一种以前未被识别的抗病毒机制,该机制利用 NRF1 介导的负反馈环来调节线粒体生物发生并拮抗先天免疫反应。

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