Kok Tineke, Hulzebos Christian V, Wolters Henk, Havinga Rick, Agellon Luis B, Stellaard Frans, Shan Bei, Schwarz Margrit, Kuipers Folkert
Groningen University Institute for Drug Exploration, Center for Liver, Digestive, and Metabolic Diseases, University Hospital Groningen, CMC IV, Rm. Y2.163, Hanzeplein 1, 9713 GZ Groningen, The Netherlands.
J Biol Chem. 2003 Oct 24;278(43):41930-7. doi: 10.1074/jbc.M306309200. Epub 2003 Aug 12.
The bile salt-activated farnesoid X receptor (FXR; NR1H4) controls expression of several genes considered crucial in maintenance of bile salt homeostasis. We evaluated the physiological consequences of FXR deficiency on bile formation and on the kinetics of the enterohepatic circulation of cholate, the major bile salt species in mice. The pool size, fractional turnover rate, synthesis rate, and intestinal absorption of cholate were determined by stable isotope dilution and were related to expression of relevant transporters in the livers and intestines of FXR-deficient (Fxr-/-) mice. Fxr-/- mice showed only mildly elevated plasma bile salt concentrations associated with a 2.4-fold higher biliary bile salt output, whereas hepatic mRNA levels of the bile salt export pump were decreased. Cholate pool size and total bile salt pool size were increased by 67 and 39%, respectively, in Fxr-/- mice compared with wild-type mice. The cholate synthesis rate was increased by 85% in Fxr-/- mice, coinciding with a 2.5-fold increase in cholesterol 7alpha-hydroxylase (Cyp7a1) and unchanged sterol 12alpha-hydroxylase (Cyp8b1) expression in the liver. Despite a complete absence of ileal bile acid-binding protein mRNA and protein, the fractional turnover rate and cycling time of the cholate pool were not affected. The calculated amount of cholate reabsorbed from the intestine per day was approximately 2-fold higher in Fxr-/- mice than in wild-type mice. Thus, the absence of FXR in mice is associated with defective feedback inhibition of hepatic cholate synthesis, which leads to enlargement of the circulating cholate pool with an unaltered fractional turnover rate. The absence of ileal bile acid-binding protein does not negatively interfere with the enterohepatic circulation of cholate in mice.
胆汁盐激活的法尼酯X受体(FXR;NR1H4)控制着几个被认为对维持胆汁盐稳态至关重要的基因的表达。我们评估了FXR缺乏对胆汁形成以及对小鼠主要胆汁盐种类胆酸盐肝肠循环动力学的生理影响。通过稳定同位素稀释法测定了胆酸盐的池大小、分数周转率、合成率和肠道吸收率,并将其与FXR缺陷(Fxr-/-)小鼠肝脏和肠道中相关转运蛋白的表达相关联。Fxr-/-小鼠仅表现出轻度升高的血浆胆汁盐浓度,伴有胆汁胆汁盐输出量高出2.4倍,而胆汁盐输出泵的肝脏mRNA水平降低。与野生型小鼠相比,Fxr-/-小鼠的胆酸盐池大小和总胆汁盐池大小分别增加了67%和39%。Fxr-/-小鼠的胆酸盐合成率增加了85%,这与肝脏中胆固醇7α-羟化酶(Cyp7a1)增加2.5倍以及固醇12α-羟化酶(Cyp8b1)表达未改变相一致。尽管回肠胆汁酸结合蛋白的mRNA和蛋白完全缺失,但胆酸盐池的分数周转率和循环时间并未受到影响。计算得出,Fxr-/-小鼠每天从肠道重吸收的胆酸盐量比野生型小鼠高出约2倍。因此,小鼠中FXR的缺失与肝脏胆酸盐合成的反馈抑制缺陷相关,这导致循环胆酸盐池增大,而分数周转率未改变。回肠胆汁酸结合蛋白的缺失不会对小鼠胆酸盐的肝肠循环产生负面影响。
