Sjöberg Beatrice G, Straniero Sara, Angelin Bo, Rudling Mats
Metabolism Unit C2:94 and KI/AZ Integrated CardioMetabolic Center, Department of Medicine, and Center for Innovative Medicine, Department of Biosciences and Nutrition, Karolinska Institute at Karolinska University Hospital Huddinge, Stockholm, Sweden.
Metabolism Unit C2:94 and KI/AZ Integrated CardioMetabolic Center, Department of Medicine, and Center for Innovative Medicine, Department of Biosciences and Nutrition, Karolinska Institute at Karolinska University Hospital Huddinge, Stockholm, Sweden
Am J Physiol Endocrinol Metab. 2017 Aug 1;313(2):E167-E174. doi: 10.1152/ajpendo.00416.2016. Epub 2017 May 9.
Bile acid (BA) production in mice is regulated by hepatic farnesoid X receptors and by intestinal fibroblast growth factor (FGF)-15 (in humans, FGF-19), a suppressor of BA synthesis that also reduces serum triglycerides and glucose. Cholestyramine treatment reduces FGF-19 and induces BA synthesis, whereas plasma triglycerides may increase from unclear reasons. We explored whether FGF-19 may suppress BA synthesis and plasma triglycerides in humans by modulation of FGF-19 levels through long-term cholestyramine treatment at increasing doses. In a second acute experiment, metabolic responses from 1 day of cholestyramine treatment were monitored. Long-term treatment reduced serum FGF-19 by >90%; BA synthesis increased up to 17-fold, whereas serum BAs, triglycerides, glucose, and insulin were stable. After long-term treatment, serum BAs and FGF-19 displayed rebound increases above baseline levels, and BA and cholesterol syntheses normalized after 1 wk without rebound reductions. Acute cholestyramine treatment decreased FGF-19 by 95% overnight and serum BAs by 60%, while BA synthesis increased fourfold and triglycerides doubled. The results support that FGF-19 represses BA synthesis but not serum triglycerides. However, after cessation of both long-term and 1-day cholestyramine treatment, circulating FGF-19 levels were normalized within 2 days, whereas BA synthesis remained significantly induced in both situations, indicating that also other mechanisms than the FGF-19 pathway are responsible for stimulation of BA synthesis elicited by cholestyramine. Several of the responses during cholestyramine treatment persisted at least 6 days after treatment, highlighting the importance of removing such treatment well before evaluating dynamics of the enterohepatic circulation in humans.
小鼠体内胆汁酸(BA)的生成受肝脏法尼醇X受体以及肠道成纤维细胞生长因子(FGF)-15(人类为FGF-19)的调节,FGF-15是一种BA合成的抑制剂,还能降低血清甘油三酯和葡萄糖水平。考来烯胺治疗可降低FGF-19水平并诱导BA合成,而血浆甘油三酯可能因不明原因升高。我们探究了长期使用递增剂量的考来烯胺治疗以调节FGF-19水平,FGF-19是否能抑制人体BA合成和血浆甘油三酯。在第二项急性实验中,监测了考来烯胺治疗1天的代谢反应。长期治疗使血清FGF-19降低超过90%;BA合成增加至17倍,而血清BA、甘油三酯、葡萄糖和胰岛素保持稳定。长期治疗后,血清BA和FGF-19在基线水平之上出现反弹升高,1周后BA和胆固醇合成恢复正常,未出现反弹降低。考来烯胺急性治疗使FGF-19在一夜之间降低95%,血清BA降低60%,而BA合成增加四倍,甘油三酯增加一倍。结果支持FGF-19可抑制BA合成,但不能抑制血清甘油三酯。然而,在长期和1天的考来烯胺治疗停止后,循环FGF-19水平在2天内恢复正常,而在两种情况下BA合成仍显著升高,这表明除FGF-19途径外,还有其他机制负责考来烯胺引发的BA合成刺激。考来烯胺治疗期间的几种反应在治疗后至少持续6天,这突出了在评估人体肠肝循环动态之前,充分停止此类治疗的重要性。
