The inhibition of cholesterol esterification by cyclandelate in transformed mouse macrophages

Abstract

Cyclandelate (trimethylcyclohexanyl mandelate) inhibited cholesterol esterification in a transformed mouse macrophage cell line (J774) with a concentration of approximately 20 μM being required for half-maximal inhibition. The intact drug was required for its inhibitory action since neither of its hydrolysis products, trimethylcyclohexanol and mandelic acid, caused any inhibition even at high concentrations. The drug entered the cells very rapidly with inhibition being apparent within the shortest time possible to measure esterification (15 min after drug addition). The rate of cholesterol esterification returned to control values when drug-inhibited cells were incubated in drug-free medium indicating a rapid loss of drug from the cells. Loading of cells with cholesterol had no effect on the inhibitory action of cyclandelate, and the inhibition of esterification of cholesterol appeared to be specific, since the syntheses of phospholipid and triacylglycerol (which also involve the action of acyltransferases) were not affected by the drug. Similar inhibitions of cholesterol esterification were seen in four other cell lines, a human osteosarcoma, Chinese hamster ovary cells, a human transformed macrophage cell line (U937) and human umbilical cord vein endothelial cells, as well as in slices of pig aorta, indicating a general action in extra-hepatic tissues where the drug is not hydrolysed.