SARS-CoV-2 蛋白 ORF3a 诱导溶酶体膜 Atg8ylation

Deepa Ajnar, Ananya Sarkar, Seema Riyaz, Poornima Menon, Dipranil Dutta, Pulkit Asati, Priyanka Sharma, Sai P Pydi, Suresh Kumar
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引用次数: 0

摘要

自噬共轭机制是自噬的核心部分,对于封存各种需要降解的货物至关重要。除了在典型自噬中的作用外,最近的证据表明共轭机制还发挥着非常规的作用。膜 Atg8ylation 是自噬的表现形式之一,其中 ATG8 连接机制招募哺乳动物 ATG8s(mATG8s)到受损的膜上进行修复或清除。在这里,我们发现SARS-CoV-2因子ORF3a能诱导膜Atg8化,并选择性地引起溶噬,这是一种逃避细胞凋亡的细胞反应。mATG8s和SNARE蛋白syntaxin 17(STX17)与ORF3a相互作用,是ORF3a诱导Atg8化所必需的。ORF3a 将 mTOR 从溶酶体中置换出来并影响 TFEB 的核转运,而 TFEB 的转运依赖于 mATG8s 和 STX17。尽管mTOR受到抑制,但其常规靶点ULK1对ORF3a诱导的Atg8ylation是不可或缺的。此外,mATG8s和STX17还能防止ORF3a诱导的细胞死亡。总之,我们的研究结果证明了ORF3a诱导的溶酶体膜Atg8化,同时发现了STX17在Atg8化中的意外作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SARS-CoV-2 protein ORF3a induces Atg8ylation of lysosomal membranes
Autophagy Conjugation machinery forms a center piece of autophagy and is essential for sequestration of a broad range of cargo destined for degradation. Apart from its role in canonical autophagy, recent evidence suggests an unconventional role of conjugation machinery. Membrane Atg8ylation is one of the manifestations of autophagy, wherein ATG8 conjugation machinery recruit mammalian ATG8s (mATG8s) to the damaged membranes for repair or removal. Herein, we show that SARS-CoV-2 factor ORF3a induces membrane Atg8ylation and selectively inflicts lysophagy, a cellular response to evade apoptotic cell death. mATG8s and SNARE protein syntaxin 17 (STX17) interact with ORF3a and are required for Atg8ylation induced by ORF3a. ORF3a displaces mTOR from the lysosomes and affects nuclear translocation of TFEB, which is dependent on mATG8s and STX17. Despite mTOR inhibition, its conventional target ULK1 is dispensable for ORF3a induced Atg8ylation. In addition, mATG8s and STX17 protected against the cell death induced by ORF3a. Overall, our findings demonstrate ORF3a induced lysosomal membrane Atg8ylation while identifying the unexpected role of STX17 in Atg8ylation.
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