Deacetylation of ATG4B promotes autophagy initiation under starvation

Liangbo Sun(Army Medical University), Haojun Xiong(Army Medical University), Lingxi Chen(Army Medical University), Xufang Dai(Chongqing Normal University), Xiaojing Yan(Army Medical University), Yaran Wu(Army Medical University), Mingzhen Yang(Army Medical University), Meihua Shan(Army Medical University), Tao Li(Army Medical University), Jie Yao(Army Medical University), Wenbin Jiang(Army Medical University), Haiyan He(Army Medical University), Fengtian He(Army Medical University), Jiqin Lian(Army Medical University)
Science Advances
August 3, 2022
10.1126/sciadv.abo0412
Cited by 42Open Access
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Abstract

Eukaryotes initiate autophagy when facing environmental changes such as a lack of external nutrients. However, the mechanisms of autophagy initiation are still not fully elucidated. Here, we showed that deacetylation of ATG4B plays a key role in starvation-induced autophagy initiation. Specifically, we demonstrated that ATG4B is activated during starvation through deacetylation at K39 by the deacetylase SIRT2. Moreover, starvation triggers SIRT2 dephosphorylation and activation in a cyclin E/CDK2 suppression–dependent manner. Meanwhile, starvation down-regulates p300, leading to a decrease in ATG4B acetylation at K39. K39 deacetylation also enhances the interaction of ATG4B with pro-LC3, which promotes LC3-II formation. Furthermore, an in vivo experiment using Sirt2 knockout mice also confirmed that SIRT2-mediated ATG4B deacetylation at K39 promotes starvation-induced autophagy initiation. In summary, this study reveals an acetylation-dependent regulatory mechanism that controls the role of ATG4B in autophagy initiation in response to nutritional deficiency.

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