SFTS bunyavirus NSs protein sequestrates mTOR into inclusion bodies and deregulates mTOR‐ULK1 signaling, provoking pro‐viral autophagy

自噬 ULK1 PI3K/AKT/mTOR通路 生物 细胞生物学 雷帕霉素的作用靶点 病毒学 自噬相关蛋白13 病毒蛋白 磷酸化 信号转导 病毒 蛋白激酶A 遗传学 蛋白质磷酸化 细胞凋亡 安普克
作者
Kuan Feng,Huijiao Zhang,Zhenyu Jiang,Min Zhou,Yuan‐Qin Min,Fēi Dèng,Peiqing Li,Huálín Wáng,Yun‐Jia Ning
出处
期刊:Journal of Medical Virology [Wiley]
卷期号:95 (1) 被引量:13
标识
DOI:10.1002/jmv.28371
摘要

Autophagy is emerging as a critical player in host defense against diverse infections, in addition to its conserved function to maintain cellular homeostasis. Strikingly, some pathogens have evolved strategies to evade, subvert or exploit different steps of the autophagy pathway for their lifecycles. Here, we present a new viral mechanism of manipulating autophagy for its own benefit with severe fever with thrombocytopenia syndrome bunyavirus (SFTSV, an emerging high-pathogenic virus) as a model. SFTSV infection triggers autophagy, leading to complete autophagic flux. Mechanistically, we show that the nonstructural protein of SFTSV (NSs) interacts with mTOR, the pivotal regulator of autophagy, by targeting its kinase domain and captures mTOR into viral inclusion bodies (IBs) induced by NSs itself. Furthermore, NSsimpairs mTOR-mediated phosphorylation of unc-51-like kinase 1 (ULK1) at Ser757, disrupting the inhibitory effect of mTOR on ULK1 activity and thus contributing to autophagy induction. Pharmacologic treatment and Beclin-1 knockout experimental results establish that, in turn, autophagy enhances SFTSV infection and propagation. Moreover, the minigenome reporter system reveals that SFTSV ribonucleoprotein (the transcription and replication machinery) activity can be bolstered by autophagy. Additionally, we found that the NSs proteins of SFTSV-related bunyaviruses have a conserved function of targeting mTOR. Taken together, we unravel a viral strategy of inducing pro-viral autophagy by interacting with mTOR, sequestering mTOR into IBs and hence provoking the downstream ULK1 pathway, which presents a new paradigm for viral manipulation of autophagy and may help inform future development of specific antiviral therapies against SFTSV and related pathogens.
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