Stress granules and mTOR are regulated by membrane atg8ylation during lysosomal damage

Jia, Jingyue; Wang, Fulong; Bhujabal, Zambarlal Babanrao; Peters, Ryan; Mudd, Michal; Duque, Thabata; Allers, Lee; Javed, Ruheena; Salemi, Michelle; Behrends, Christian; Phinney, Brett; Johansen, Terje; Deretic, Vojo

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Date

2022

Type

Journal article
Tidsskriftartikkel
Peer reviewed

Author

Jia, Jingyue; Wang, Fulong; Bhujabal, Zambarlal Babanrao; Peters, Ryan; Mudd, Michal; Duque, Thabata; Allers, Lee; Javed, Ruheena; Salemi, Michelle; Behrends, Christian; Phinney, Brett; Johansen, Terje; Deretic, Vojo

Abstract

We report that lysosomal damage is a hitherto unknown inducer of stress granule (SG) formation and that the process termed membrane atg8ylation coordinates SG formation with mTOR inactivation during lysosomal stress. SGs were induced by lysosomedamaging agents including SARS-CoV-2ORF3a, Mycobacterium tuberculosis, and proteopathic tau. During damage, mammalian ATG8s directly interacted with the core SG proteins NUFIP2 and G3BP1. Atg8ylation was needed for their recruitment to damaged lysosomes independently of SG condensates whereupon NUFIP2 contributed to mTOR inactivation via the Ragulator-RagA/B complex. Thus, cells employ membrane atg8ylation to control and coordinate SG and mTOR responses to lysosomal damage.

Publisher

Rockefeller University Press

Citation

Jia, Wang, Bhujabal, Peters, Mudd, Duque, Allers, Javed, Salemi, Behrends, Phinney, Johansen, Deretic. Stress granules and mTOR are regulated by membrane atg8ylation during lysosomal damage. Journal of Cell Biology. 2022;221(11)

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Artikler, rapporter og annet (medisinsk biologi) [1096]

Except where otherwise noted, this item's license is described as Attribution 4.0 International (CC BY 4.0)