SIRT4 Has Tumor-Suppressive Activity and Regulates the Cellular Metabolic Response to DNA Damage by Inhibiting Mitochondrial Glutamine Metabolism
Menée à l'aide de modèles murins, cette étude met en évidence des mécanismes par lesquels, en régulant la réponse à des dégâts causés sur l'ADN, la sirtuine SIRT4 localisée dans les mitochondries joue un rôle de suppresseur de tumeurs
DNA damage elicits a cellular signaling response that initiates cell cycle arrest and DNA repair. Here, we find that DNA damage triggers a critical block in glutamine metabolism, which is required for proper DNA damage responses. This block requires the mitochondrial SIRT4, which is induced by numerous genotoxic agents and represses the metabolism of glutamine into tricarboxylic acid cycle. SIRT4 loss leads to both increased glutamine-dependent proliferation and stress-induced genomic instability, resulting in tumorigenic phenotypes. Moreover, SIRT4 knockout mice spontaneously develop lung tumors. Our data uncover SIRT4 as an important component of the DNA damage response pathway that orchestrates a metabolic block in glutamine metabolism, cell cycle arrest, and tumor suppression.
º DNA damage induces SIRT4 and inhibits mitochondrial glutamine metabolism
º SIRT4 is required for proper repression of glutamine metabolism after DNA damage º SIRT4 loss promotes genomic instability
º SIRT4 represses tumor growth, and SIRT4 knockout mice develop tumors with age
Cancer cell , article en libre accès, 2012