胆汁酸调节鱼类糖脂代谢、免疫及肠道菌群的研究进展

RESEARCH PROGRESS ON THE REGULATION OF FISH GLYCOLIPID METABOLISM, IMMUNITY AND INTESTINAL FLORA BY BILE ACIDS

  • 摘要: 胆汁酸(BAs)是一类两亲性甾醇化合物, 按来源可分为初级胆汁酸和次级胆汁酸, 初级胆汁酸由肝脏中的胆固醇合成后进入肠道, 在肠道中, 初级胆汁酸在回肠末端和结肠上段肠道菌群的作用下转化为次级胆汁酸, 大部分肠道中的胆汁酸在回肠部位通过肝肠循环进入肝脏, 剩余胆汁酸随着粪便等排出体外。研究表明, 胆汁酸在维持鱼类糖脂稳态、提高免疫功能、重塑肠道菌群等方面具有显著效果。不同鱼类中的胆汁酸成分具有物种特异性, 不同胆汁酸的有益效果也因鱼而异, 但是目前对鱼类中胆汁酸的组成、分类及功能知之甚少。文章总结了胆汁酸的组成分类、主要受体、生物学功能及其在鱼类上的研究进展和存在的问题, 以期为鱼类中胆汁酸的进一步研究及其在水产养殖中的高效利用提供参考。

     

    Abstract: Bile acids (BAs) constitute a class of amphipathic sterol compounds, categorized into primary and secondary bile acids based on their origins. Primary bile acids are synthesized from cholesterol in the liver and subsequently enter the intestine. In the intestine, primary bile acids undergo conversion into secondary bile acids by the intestinal flora, primarily in the terminal ileum and upper colon. The majority of bile acids in the intestine are returned to the liver through enterohepatic circulation in the ileum, while the remaining bile acids are excreted with feces. Research shows the significant role of bile acids in maintaining glycolipid homeostasis, improving immune function, and reshaping intestinal flora in fish. However, the composition, classification, and functions of bile acids in different fish species remain poorly understood. This article provides a comprehensive summary of bile acid composition, classification, main receptors, biological functions, and the current state of research and challenges in understanding bile acids in fish. The aim is to offer insights for further investigation into fish bile acids and their efficient utilization in aquaculture practices.

     

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