Emerg Microbes Infect


. 2022 Sep 24;1-10.
doi: 10.1080/22221751.2022.2128434. Online ahead of print.
MERS-CoV nsp1 regulates autophagic flux via mTOR signaling and dysfunctional lysosomes


Yujie Feng ¹ , Zhaoyi Pan ¹ , Zhihui Wang ¹ , Zhengyang Lei ¹ , Songge Yang ¹ , Huajun Zhao ¹ , Xueyao Wang ¹ , Yating Yu ¹ , Qiuju Han ¹ , Jian Zhang ¹



Affiliations

• PMID: 36153658
• DOI: 10.1080/22221751.2022.2128434

Abstract

Autophagy, a cellular surveillance mechanism, plays an important role in combating invading pathogens. However, viruses have evolved various strategies to disrupt autophagy and even hijack it for replication and release. Here, we demonstrated that Middle East respiratory syndrome coronavirus (MERS-CoV) non-structural protein 1(nsp1) induces autophagy but inhibits autophagic activity. MERS-CoV nsp1 expression increased ROS and reduced ATP levels in cells, which activated AMPK and inhibited the mTOR signaling pathway, resulting in autophagy induction. Meanwhile, as an endonuclease, MERS-CoV nsp1 downregulated the mRNA of lysosome-related genes that were enriched in nsp1-located granules, which diminished lysosomal biogenesis and acidification, and inhibited autophagic flux. Importantly, MERS-CoV nsp1-induced autophagy can lead to cell death in vitro and in vivo. These findings clarify the mechanism by which MERS-CoV nsp1-mediated autophagy regulation, providing new insights for the prevention and treatment of the coronavirus.

Keywords: MERS-CoV; autophagic flux; lysosomes; mTOR; nsp1.