Effects of internal biliary bypass on the regulation of hepatic cholesterol 7alpha-hydroxylase activity in rats.

Abstract

In order to re-evaluate the importance of the enterohepatic circulation of bile acid in the regulation of the activities of hepatic cholesterol 7alpha-hydroxylase, bile acid metabolism was examined in internal biliary bypass models of rats. A polyethylene tube was inserted into the common bile duct and another side of the tube was placed in the duodenum (DD), lower jejunum (JD), cecum (CeD), or transverse colon (CoD) as internal biliary bypass models and in the urinary bladder as an external biliary drainage (ED). After bile diversion for 7 days in each group, hepatic cholesterol 7alpha-hydroxylase activities, bile acid concentrations in bile, serum, and portal vein, biliary bile acid compositions, and intestinal absorption rates of infused labeled taurocholic acid were analyzed. Hepatic cholesterol 7alpha-hydroxylase activity was similar in the JD group compared with the DD group, however, it was significantly up-regulated in the CeD (227% of the DD group), CoD (312%), and ED groups (316%). Biliary, serum, and portal bile acid concentrations were not significantly changed in the DD, JD, and CeD groups but those were significantly lower in the CoD and ED groups compared with the DD group. The proportion of the secondary bile acids was significantly increased in the CeD group and was decreased in the CoD and ED groups. The absorption rate of taurocholic acid was almost 100%, 56%, and 23% in the JD, CeD, and the CoD group, respectively. As the cholesterol 7alpha-hydroxylase activity was not significantly changed in the JD group and the predominance of secondary bile acids did not suppress the enzyme activity in the CeD group, the luminal factor, which is absorbed in the presence of bile acids, and the bile acid metabolites are not likely the regulatory factor. The cholesterol 7alpha-hydroxylase activity seems to be primarily regulated by the intestinal absorption of bile acids and partly by the intestinal mucosal factor which is linked to the intestinal bile acid absorption.