Hepatic cholesterol synthesis and the secretion of newly synthesized cholesterol in bile.

To determine the effect of increased hepatic cholesterol synthesis on the secretion of newly synthesized cholesterol in bile, rats were fed with cholestyramine, a bile-acid-binding resin that increases the number of hepatocytes that synthesize cholesterol. Cholesterol synthesis was measured 15 min after [3H]water injection to avoid appreciable exchange between the liver and serum of newly synthesized cholesterol that accumulates in the serum in studies of several hours duration. At 15 min after [3H]water injection, the specific radioactivity of cholesterol in the liver and hepatic microsomes was greatly increased in resin-fed animals compared with controls. However, with resin, the specific radioactivity of newly synthesized cholesterol that was secreted in bile was the same as for controls. At 15 min after [3H]water injection the specific radioactivity of serum cholesterol was minimally increased and not different in resin and control groups. In contrast, in studies that were longer than 60 min, newly synthesized cholesterol in serum was appreciably increased in resin-fed animals, and newly synthesized cholesterol in bile was also greatly increased compared with controls. Thus, when appreciable cholesterol exchange is avoided, an increase in hepatic cholesterol synthesis and the number of hepatocytes that synthesized cholesterol does not result in an increase in newly synthesized cholesterol in bile. Our results suggest that newly synthesized cholesterol is secreted in bile from a fixed subpopulation of hepatocytes. From a comparison of the specific radioactivity of newly synthesized cholesterol in whole liver and bile, it can be estimated that this subpopulation of hepatocytes represents about 20% of the total hepatocyte mass.