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Cholesterol mediated ferroptosis suppression reveals essential roles of Coenzyme Q and squalene.

Communications biology (2023-11-02)
Qi Sun, Diming Liu, Weiwei Cui, Huimin Cheng, Lixia Huang, Ruihao Zhang, Junlian Gu, Shuo Liu, Xiao Zhuang, Yi Lu, Bo Chu, Jian Li
RESUMEN

Recent findings have shown that fatty acid metabolism is profoundly involved in ferroptosis. However, the role of cholesterol in this process remains incompletely understood. In this work, we show that modulating cholesterol levels changes vulnerability of cells to ferroptosis. Cholesterol alters metabolic flux of the mevalonate pathway by promoting Squalene Epoxidase (SQLE) degradation, a rate limiting step in cholesterol biosynthesis, thereby increasing both CoQ10 and squalene levels. Importantly, whereas inactivation of Farnesyl-Diphosphate Farnesyltransferase 1 (FDFT1), the branch point of cholesterol biosynthesis pathway, exhibits minimal effect on ferroptosis, simultaneous inhibition of both CoQ10 and squalene biosynthesis completely abrogates the effect of cholesterol. Mouse models of ischemia-reperfusion and doxorubicin induced hepatoxicity confirm the protective role of cholesterol in ferroptosis. Our study elucidates a potential role of ferroptosis in diseases related to dysregulation of cholesterol metabolism and suggests a possible therapeutic target that involves ferroptotic cell death.

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Sigma-Aldrich
AY 9944, A cell-permeable amphiphilic diamine that blocks cholesterol biosynthesis and its esterification.