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Newcastle disease virus degrades SIRT3 via PINK1-PRKN-dependent mitophagy to reprogram energy metabolism in infected cells

文献类型：外文期刊

第一作者： Gong, Yabin

作者： Gong, Yabin;Tang, Ning;Liu, Panrao;Sun, Yingjie;Liu, Weiwei;Tan, Lei;Song, Cuiping;Qiu, Xusheng;Liao, Ying;Yu, Shengqing;Ding, Chan;Liu, Panrao;Liu, Xiufan;Ding, Chan;Lu, Shanxin;Lin, Shu-Hai;Tang, Ning

作者机构：

关键词： Cellular metabolism; glycolysis; mitochondrial fission; mitophagy; newcastle disease virus; SIRT3

期刊名称：AUTOPHAGY （影响因子：16.016；五年影响因子：16.586 ）

ISSN： 1554-8627

年卷期：

页码：

收录情况： SCI

摘要： Lacking a self-contained metabolism network, viruses have evolved multiple mechanisms for rewiring the metabolic system of their host to hijack the host's metabolic resources for replication. Newcastle disease virus (NDV) is a paramyxovirus, as an oncolytic virus currently being developed for cancer treatment. However, how NDV alters cellular metabolism is still far from fully understood. In this study, we show that NDV infection reprograms cell metabolism by increasing glucose utilization in the glycolytic pathway. Mechanistically, NDV induces mitochondrial damage, elevated mitochondrial reactive oxygen species (mROS) and ETC dysfunction. Infection of cells depletes nucleotide triphosphate levels, resulting in elevated AMP:ATP ratios, AMP-activated protein kinase (AMPK) phosphorylation, and MTOR crosstalk mediated autophagy. In a time-dependent manner, NDV shifts the balance of mitochondrial dynamics from fusion to fission. Subsequently, PINK1-PRKN-dependent mitophagy was activated, forming a ubiquitin chain with MFN2 (mitofusin 2), and molecular receptor SQSTM1/p62 recognized damaged mitochondria. We also found that NDV infection induces NAD(+)-dependent deacetylase SIRT3 loss via mitophagy to engender HIF1A stabilization, leading to the switch from oxidative phosphorylation (OXPHOS) to aerobic glycolysis. Overall, these studies support a model that NDV modulates host cell metabolism through PINK1-PRKN-dependent mitophagy for degrading SIRT3.

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