Inhibitory action of natural compounds of microbial origin on cholesterol metabolism

Abstract

1) Repeated administration of pravastatin significantly increased serum and liver cholesterol in rats. Hepatic LDL receptor activity was not changed and VLDL cholesterol secretion from the liver was increased. Net cholesterol synthesis in rat liver was increased after 7 days of repeated pravastatin administration. These results suggest that for rats, unlike other animals for which serum cholesterol is decreased, induced HMG-CoA reductase activity due to pravastatin treatment might overcome the inhibitory capability of pravastatin. 2) In the course of screening for squalene synthase inhibitors, novel zaragozic acids-F10863A, B, C and D-containing zaragozic acid D3 were isolated. F10863A was most potent and selectively inhibited cholesterol synthesis in freshly isolated rat hepatocytes among several cultured and isolated cells. It also showed in vivo serum cholesterol-lowering effects in hamsters and marmosets. However, the inhibition for squalene synthase proved to cause acidosis due to the accumulation of farnesol-derived dicarboxylic acids in urines. 3) A novel acyl-CoA: cholesterol acyltransferase (ACAT) inhibitor, designated epi-cochlioquinone A, a stereoisomer of cochlioquinone A, which has been previously reported as a nematocidal agent, was isolated from the fermentation broth of Stachybotrys bisbyi. It inhibited in vivo cholesterol absorption in rats by 50% at 75 mg/kg.