Elucidating the hepatoprotective mechanisms of cholic acid against CCl4-Induced acute liver injury: A transcriptomic and metabolomic study

胆酸 代谢组学 肝损伤 中医药 药理学 超氧化物歧化酶 花生四烯酸 脱氧胆酸 胆汁酸 医学 化学 生物化学 氧化应激 病理 替代医学 色谱法
作者
Zhihong Zhang,Yanping Sun,Yuanning Zeng,Na Cui,Biao Li,Wensen Zhang,Haodong Bai,Na Xing,Haixue Kuang,Qiuhong Wang
出处
期刊:Journal of Ethnopharmacology [Elsevier BV]
卷期号:328: 118052-118052 被引量:9
标识
DOI:10.1016/j.jep.2024.118052
摘要

Cholic acid (CA) is one of the main active ingredients in Calculus Bovis, a traditional Chinese medicine, which helps to regulate the heart and liver meridians, clearing the heart, opening the mouth, cooling the liver and calming the wind. However, the molecular mechanism of its liver protective effect is still unclear. Growing attention has been directed towards traditional Chinese medicine (TCM), particularly Calculus Bovis, as a potential solution for liver protection. Despite this interest, a comprehensive understanding of its hepatoprotective mechanisms remains lacking. This research seeks to explore the potential protective properties of cholic acid (CA) against CCl4-induced acute liver injury (ALI) in mice, while also examining the mechanisms involved. In the experiment, a mouse model was employed to ALI using CCl4, and the potential therapeutic effects of orally administered CA at varying doses (15, 30, and 60 mg/kg) were assessed. The study employed a multi-faceted approach, integrating liver transcriptomics with serum metabolomics, and conducting thorough analyses of serum biochemical markers and liver histopathological sections. Oral CA administration markedly reduced the organ indices of the liver, spleen, and thymus in comparison with the model group. It also elevated the expression of superoxide dismutase (SOD) in serum while diminishing the concentrations of ALT, AST, MDA, IL-6, and TNF-α. Moreover, CA ameliorated the pathological damage induced by CCl4. Integrated metabolomic and transcriptomic analyses indicated that the hepatoprotective action of CA on ALI is mediated through the modulation of lipid metabolic pathways—specifically, metabolisms of glycerophospholipid, arachidonic acid, as well as linoleic acid—and by altering the expression of genes such as Ptgr1, PLpp1, Tbxas1, and Cyp2c37. The current investigation offers insights into the hepatoprotective mechanisms by which CA mitigates ALI caused by CCl4 exposure, thus supporting the further evaluation and development of CA-based therapeutics for ALI.
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