Activation of PPARα-catalase pathway reverses alcoholic liver injury via upregulating NAD synthesis and accelerating alcohol clearance

过氧化氢酶 NAD+激酶 过氧化氢 化学 肝损伤 酒精性肝病 CYP2E1 乙醇代谢 戒毒(替代医学) 生物化学 过氧化物酶体增殖物激活受体 新陈代谢 药理学 氧化应激 生物 内科学 医学 受体 细胞色素P450 肝硬化 病理 替代医学
作者
Ruichao Yue,Guan‐Yuan Chen,Guoxiang Xie,Liuyi Hao,Wei Guo,Xinguo Sun,Jia Wang,Qibin Zhang,Zhanxiang Zhou,Wei Zhong
出处
期刊:Free Radical Biology and Medicine [Elsevier BV]
卷期号:174: 249-263 被引量:25
标识
DOI:10.1016/j.freeradbiomed.2021.08.005
摘要

Alcohol metabolism in the liver simultaneously generates toxic metabolites and disrupts redox balance, but the regulatory mechanisms have not been fully elucidated. The study aimed to characterize the role of PPARα in alcohol detoxification. Hepatic PPARα and catalase levels were examined in patients with severe alcoholic hepatitis. Mouse studies were conducted to determine the effect of PPARα reactivation by Wy14,643 on alcoholic hepatotoxicity and how catalase is involved in mediating such effects. Cell culture study was conducted to determine the effect of hydrogen peroxide on cellular NAD levels. We found that the protein levels of PPARα and catalase were significantly reduced in the livers of patients with severe alcoholic hepatitis. PPARα reactivation by Wy14,643 effectively reversed alcohol-induced liver damage in mice. Global and targeted metabolites analysis revealed a fundamental role of PPARα in regulating the tryptophan-NAD pathway. Notably, PPARα activation completely switched alcohol metabolism from the CYP2E1 pathway to the catalase pathway along with accelerated alcohol clearance. Catalase knockout mice were incompetent in alcohol metabolism and hydrogen peroxide clearance and were more susceptible to alcohol-induced liver injury. Hydrogen peroxide-treated hepatocytes had a reduced size of cellular NAD pool. These data demonstrate a key role of PPARα in regulating hepatic alcohol detoxification. Catalase-mediated hydrogen peroxide removal represents an underlying mechanism of how PPARα preserves the NAD pool. The study provides a new angle of view about the PPARα-catalase pathway in combating alcohol toxicity.
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