胆汁酸和肠道菌群在肠外营养相关损伤中的作用。

Journal of human nutrition (Carson City, Nev.) Pub Date : 2020-01-01 Epub Date: 2020-03-02 DOI:10.36959/487/286
Chandra Shekhara Manithody, Johan Van Nispen, Vidul Murali, Sonali Jain, Ashish Samaddar, Austin Armstrong, Ajay Jain
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引用次数: 6

摘要

全肠外营养(TPN)是一种挽救生命的疗法,所有营养需求都是静脉提供的。虽然这种疗法对于无法通过肠道处理其营养需求的个体至关重要,但会出现严重的并发症,如肠衰竭相关肝损伤(IFALD)。IFALD包括肝脂肪变性、胆汁淤积、炎症,最终发展为肝硬化和门静脉高压症,部分患者可能需要肝移植。这种情况的确切机制尚不清楚,但最近的研究表明,肠道微生物群和腔内胆汁酸信号的变化已知在IFALD的发展中起作用。在正常肠内营养的肠肝循环中,肠道Farnesoid X受体(FXR)被胆汁酸激活,从而触发成纤维细胞生长因子19 (FGF19)释放到门静脉循环。FGF19通过肠内营养调节肝内胆汁酸合成。该信号通路在TPN中受损,研究表明接受TPN的受试者血清FGF19水平下降。最后,由于肠道低流动性,肠道微生物群在TPN中严重改变。肠道菌群的变化会影响我们的免疫反应,并促进对肝功能产生负面影响的内毒素。靶向影响肠道微生物群和胆汁酸信号传导的途径有望治疗TPN相关损伤。
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Role of Bile Acids and Gut Microbiota in Parenteral Nutrition Associated Injury.

Total Parenteral Nutrition (TPN) is a life-saving therapy where all nutritional requirements are provided intravenously. While this therapy is essential for individuals unable to process their nutritional needs enterically, significant complications arise such as intestinal failure associated liver injury (IFALD). IFALD includes hepatic steatosis, cholestasis, inflammation, ultimately progressing to cirrhosis and portal hypertension and some patients may need liver transplantation. The exact mechanism underlying this condition is not well understood, but studies have recently suggested that changes in gut microbiota and intraluminal bile acid signaling are known to play a role in the development of IFALD. In enterohepatic circulation with normal enteral nutrition, gut Farnesoid X Receptor (FXR) is activated by bile acids, which triggers the release of Fibroblast Growth Factor 19 (FGF19) into portal circulation. FGF19 serves to regulate intrahepatic bile acid synthesis with enteric nutrition. This signaling pathway is impaired in TPN as studies indicate decreased serum levels of FGF19 in subjects receiving TPN. Finally, gut microbiota is severely altered in TPN due to intestinal hypomobility. The shift in gut microbiota affects our immune response and promotes endotoxins that negatively affect liver function. Targeting the pathways affecting gut microbiota and bile acid signaling has promise in treating TPN associated injuries.

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Role of Bile Acids and Gut Microbiota in Parenteral Nutrition Associated Injury.
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