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Sirt3 restricts tumor initiation via promoting LONP1 deacetylation and K63 ubiquitination

Liyi Wu, Xinyi Yan, Ruibo Sun, Ye Ma, Wanyu Yao, Baogui Gao, Qingyuan Zhang, Junxiong You, Hao Wang, Qinrui Han, Xuegang Sun

2023Journal of Translational Medicine23 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Sirtuin 3 (Sirt3) is a controversial regulator of carcinogenesis. It residents in the mitochondria and gradually decays during aging. In this study, we tried to investigate the role of Sirt3 in carcinogenesis and to explore its involvement in metabolic alteration. METHODS: (AVS) mice. The deacetylation site of Lon protease-1 (LONP1) was identified with Mass spectrometry. The metabolic flux phenotype was determined by Seahorse bioanalyzer. RESULTS: We found that intestinal epithelial cell-specific ablation of Sirt3 promotes primary tumor growth via stabilizing mitochondrial LONP1. Notably, we newly identified that Sirt3 deacetylates human oncogene LONP1 at N terminal residue lysine 145 (K145). The LONP1 hyperacetylation-mutant K145Q enhances oxidative phosphorylation to accelerate tumor growth, whereas the deacetylation-mutant K145R produces calorie-restriction like phenotype to restrain tumorigenesis. Sirt3 deacetylates LONP1 at K145 and subsequently facilitates the ESCRT0 complex sorting and K63-ubiquitination that resulted in the degradation of LONP1. Our results sustain the notion that Sirt3 is a tumor-suppressor to maintain the appropriate ubiquitination and degradation of oncogene LONP1. CONCLUSION: Sirt3 represents a targetable metabolic checkpoint of oncogenesis, which produces energy restriction effects via maintaining LONP1 K145 deacetylation and subsequent K63 ubiquitination.

Topics & Concepts

AcetylationUbiquitinSIRT3Cell biologyBiologyCancer researchChemistryBiochemistrySirtuinGeneSirtuins and Resveratrol in MedicineFOXO transcription factor regulationAutophagy in Disease and Therapy