Hung-Chun Tung, Jong-Won Kim, Junjie Zhu, Sihan Li, Jiong Yan, Qing Liu, Imhoi Koo, Sergei A. Koshkin, Fuhua Hao, Guo Zhong, Meishu Xu, Zehua Wang, Jingyuan Wang, Yixian Huang, Yue Xi, Xinran Cai, Pengfei Xu, Songrong Ren, Takanobu Higashiyama, Frank J. Gonzalez, Song Li, Nina Isoherranen, Da Yang, Xiaochao Ma, Andrew D. Patterson, Wen Xie
{"title":"抑制血红硫酸酯单加氧酶 CYP1B1 可防止肝星状细胞活化和肝纤维化,因为它积累了三卤糖","authors":"Hung-Chun Tung, Jong-Won Kim, Junjie Zhu, Sihan Li, Jiong Yan, Qing Liu, Imhoi Koo, Sergei A. Koshkin, Fuhua Hao, Guo Zhong, Meishu Xu, Zehua Wang, Jingyuan Wang, Yixian Huang, Yue Xi, Xinran Cai, Pengfei Xu, Songrong Ren, Takanobu Higashiyama, Frank J. Gonzalez, Song Li, Nina Isoherranen, Da Yang, Xiaochao Ma, Andrew D. Patterson, Wen Xie","doi":"10.1126/scitranslmed.adk8446","DOIUrl":null,"url":null,"abstract":"<div >Activation of extracellular matrix–producing hepatic stellate cells (HSCs) is a key event in liver fibrogenesis. We showed that the expression of the heme-thiolate monooxygenase cytochrome P450 1B1 (CYP1B1) was elevated in human and mouse fibrotic livers and activated HSCs. Systemic or HSC-specific ablation and pharmacological inhibition of CYP1B1 attenuated HSC activation and protected male but not female mice from thioacetamide (TAA)–, carbon tetrachloride (CCl<sub>4</sub>)–, or bile duct ligation (BDL)–induced liver fibrosis. Metabolomic analysis revealed an increase in the disaccharide trehalose in CYP1B1-deficient HSCs resulting from intestinal suppression of the trehalose-metabolizing enzyme trehalase, whose gene we found to be a target of RARα. Trehalose or its hydrolysis-resistant derivative lactotrehalose exhibited potent antifibrotic activity in vitro and in vivo by functioning as an HSC-specific autophagy inhibitor, which may account for the antifibrotic effect of CYP1B1 inhibition. Our study thus reveals an endobiotic function of CYP1B1 in liver fibrosis in males, mediated by liver-intestine cross-talk and trehalose. At the translational level, pharmacological inhibition of CYP1B1 or the use of trehalose/lactotrehalose may represent therapeutic strategies for liver fibrosis.</div>","PeriodicalId":21580,"journal":{"name":"Science Translational Medicine","volume":"16 766","pages":""},"PeriodicalIF":15.8000,"publicationDate":"2024-09-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Inhibition of heme-thiolate monooxygenase CYP1B1 prevents hepatic stellate cell activation and liver fibrosis by accumulating trehalose\",\"authors\":\"Hung-Chun Tung, Jong-Won Kim, Junjie Zhu, Sihan Li, Jiong Yan, Qing Liu, Imhoi Koo, Sergei A. Koshkin, Fuhua Hao, Guo Zhong, Meishu Xu, Zehua Wang, Jingyuan Wang, Yixian Huang, Yue Xi, Xinran Cai, Pengfei Xu, Songrong Ren, Takanobu Higashiyama, Frank J. Gonzalez, Song Li, Nina Isoherranen, Da Yang, Xiaochao Ma, Andrew D. Patterson, Wen Xie\",\"doi\":\"10.1126/scitranslmed.adk8446\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div >Activation of extracellular matrix–producing hepatic stellate cells (HSCs) is a key event in liver fibrogenesis. We showed that the expression of the heme-thiolate monooxygenase cytochrome P450 1B1 (CYP1B1) was elevated in human and mouse fibrotic livers and activated HSCs. Systemic or HSC-specific ablation and pharmacological inhibition of CYP1B1 attenuated HSC activation and protected male but not female mice from thioacetamide (TAA)–, carbon tetrachloride (CCl<sub>4</sub>)–, or bile duct ligation (BDL)–induced liver fibrosis. Metabolomic analysis revealed an increase in the disaccharide trehalose in CYP1B1-deficient HSCs resulting from intestinal suppression of the trehalose-metabolizing enzyme trehalase, whose gene we found to be a target of RARα. Trehalose or its hydrolysis-resistant derivative lactotrehalose exhibited potent antifibrotic activity in vitro and in vivo by functioning as an HSC-specific autophagy inhibitor, which may account for the antifibrotic effect of CYP1B1 inhibition. Our study thus reveals an endobiotic function of CYP1B1 in liver fibrosis in males, mediated by liver-intestine cross-talk and trehalose. 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Inhibition of heme-thiolate monooxygenase CYP1B1 prevents hepatic stellate cell activation and liver fibrosis by accumulating trehalose
Activation of extracellular matrix–producing hepatic stellate cells (HSCs) is a key event in liver fibrogenesis. We showed that the expression of the heme-thiolate monooxygenase cytochrome P450 1B1 (CYP1B1) was elevated in human and mouse fibrotic livers and activated HSCs. Systemic or HSC-specific ablation and pharmacological inhibition of CYP1B1 attenuated HSC activation and protected male but not female mice from thioacetamide (TAA)–, carbon tetrachloride (CCl4)–, or bile duct ligation (BDL)–induced liver fibrosis. Metabolomic analysis revealed an increase in the disaccharide trehalose in CYP1B1-deficient HSCs resulting from intestinal suppression of the trehalose-metabolizing enzyme trehalase, whose gene we found to be a target of RARα. Trehalose or its hydrolysis-resistant derivative lactotrehalose exhibited potent antifibrotic activity in vitro and in vivo by functioning as an HSC-specific autophagy inhibitor, which may account for the antifibrotic effect of CYP1B1 inhibition. Our study thus reveals an endobiotic function of CYP1B1 in liver fibrosis in males, mediated by liver-intestine cross-talk and trehalose. At the translational level, pharmacological inhibition of CYP1B1 or the use of trehalose/lactotrehalose may represent therapeutic strategies for liver fibrosis.
期刊介绍:
Science Translational Medicine is an online journal that focuses on publishing research at the intersection of science, engineering, and medicine. The goal of the journal is to promote human health by providing a platform for researchers from various disciplines to communicate their latest advancements in biomedical, translational, and clinical research.
The journal aims to address the slow translation of scientific knowledge into effective treatments and health measures. It publishes articles that fill the knowledge gaps between preclinical research and medical applications, with a focus on accelerating the translation of knowledge into new ways of preventing, diagnosing, and treating human diseases.
The scope of Science Translational Medicine includes various areas such as cardiovascular disease, immunology/vaccines, metabolism/diabetes/obesity, neuroscience/neurology/psychiatry, cancer, infectious diseases, policy, behavior, bioengineering, chemical genomics/drug discovery, imaging, applied physical sciences, medical nanotechnology, drug delivery, biomarkers, gene therapy/regenerative medicine, toxicology and pharmacokinetics, data mining, cell culture, animal and human studies, medical informatics, and other interdisciplinary approaches to medicine.
The target audience of the journal includes researchers and management in academia, government, and the biotechnology and pharmaceutical industries. It is also relevant to physician scientists, regulators, policy makers, investors, business developers, and funding agencies.