Hwan Ma, Gyu-Rim Lee, Jeong-Su Park, Jin Lee, Feng Wang, Yuanqiang Ma, Guo-Yan Sui, Nodir Rustamov, Sou Hyun Kim, Young-Suk Jung, Hwan-Soo Yoo, Sang-Bae Han, Jin Tae Hong, Jaesuk Yun, Yoon Seok Roh
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引用次数: 0
摘要
众所周知,同时滥用酒精和可卡因会对肝脏、心脏和大脑造成更强烈、更难以预测的细胞损伤。然而,可卡因和酒精在肝脏损伤中的机理交叉仍不清楚。研究结果显示,可卡因会诱发狨猴和小鼠的肝损伤和炎症。值得注意的是,小鼠同时服用可卡因和乙醇会比单独服用造成更严重的肝损伤。代谢组分析证实,可卡因摄入后,狨猴血清中含量最高的代谢物是马尿酸(HA),这种物质在原代狨猴肝细胞中形成。可卡因的代谢物 HA 会增加线粒体 DNA 的泄漏,随后通过 STING 信号增加 Kupffer 细胞(KCs)中促炎因子的产生。此外,可卡因处理过的 KC 的条件培养基通过酒精诱导的 TNFR1 诱导肝细胞坏死。最后,在体内破坏 STING 信号转导可改善酒精和可卡因共同诱导的肝损伤和炎症。这些发现表明,干预 HA-STING-TNFR1 轴是治疗酒精和可卡因诱导的过度肝损伤的一种新策略。
Cocaine-derived hippuric acid activates mtDNA-STING signaling in alcoholic liver disease: Implications for alcohol and cocaine co-abuse.
The simultaneous abuse of alcohol-cocaine is known to cause stronger and more unpredictable cellular damage in the liver, heart, and brain. However, the mechanistic crosstalk between cocaine and alcohol in liver injury remains unclear. The findings revealed cocaine-induced liver injury and inflammation in both marmosets and mice. Of note, co-administration of cocaine and ethanol in mice causes more severe liver damage than individual treatment. The metabolomic analysis confirmed that hippuric acid (HA) is the most abundant metabolite in marmoset serum after cocaine consumption and that is formed in primary marmoset hepatocytes. HA, a metabolite of cocaine, increases mitochondrial DNA leakage and subsequently increases the production of proinflammatory factors via STING signaling in Kupffer cells (KCs). In addition, conditioned media of cocaine-treated KC induced hepatocellular necrosis via alcohol-induced TNFR1. Finally, disruption of STING signaling in vivo ameliorated co-administration of alcohol- and cocaine-induced liver damage and inflammation. These findings postulate intervention of HA-STING-TNFR1 axis as a novel strategy for treatment of alcohol- and cocaine-induced excessive liver damage.
期刊介绍:
Cell Biology and Toxicology (CBT) is an international journal focused on clinical and translational research with an emphasis on molecular and cell biology, genetic and epigenetic heterogeneity, drug discovery and development, and molecular pharmacology and toxicology. CBT has a disease-specific scope prioritizing publications on gene and protein-based regulation, intracellular signaling pathway dysfunction, cell type-specific function, and systems in biomedicine in drug discovery and development. CBT publishes original articles with outstanding, innovative and significant findings, important reviews on recent research advances and issues of high current interest, opinion articles of leading edge science, and rapid communication or reports, on molecular mechanisms and therapies in diseases.
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