Journal of Lipid Research, Vol 31, 203-215, Copyright © 1990 by Lipid Research, Inc.

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Differential regulation of low density lipoprotein suppression of HMG- CoA reductase activity in cultured cells by inhibitors of cholesterol biosynthesis

AK Gupta, RC Sexton and H Rudney
Department of Molecular Genetics, University of Cincinnati College of Medicine, OH 45267-0524.

Treatment of rat intestinal epithelial cells (IEC-6 cells) with lanosterol 14 alpha-demethylase inhibitors, ketoconazole and miconazole, had similar effects on 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase activity and cholesterol biosynthesis but the drugs differed in their ability to prevent the low density lipoprotein (LDL) suppression of reductase activity. Miconazole, at concentrations that inhibited the metabolism of lanosterol and epoxylanosterol to the same degree as ketoconazole, did not prevent low density lipoprotein action on reductase activity, whereas ketoconazole totally abolished the low density lipoprotein action on reductase activity. Both drugs caused: 1) a biphasic response in reductase activity such that at low concentrations (less than 2 microM) reductase activity was inhibited and at high concentrations (greater than 5 microM) the activity returned to control or higher than control levels; 2) an inhibition of metabolism of lanosterol to cholesterol, and 24(S), 25-epoxylanosterol to 24(S), 25-epoxycholesterol. Neither drug prevented suppression of reductase activity by 25-hydroxylanosterol, 25-hydroxycholesterol, or mevalonolactone added to the medium. Each drug increased the binding, uptake, and degradation of 125I-labeled LDL and inhibited the re- esterification of free cholesterol to cholesteryl oleate and cholesteryl palmitate. The release of free cholesterol from [3H]cholesteryl linoleate LDL could not account for the differential effect of ketoconazole and miconazole on the prevention of low density lipoprotein suppression of reductase activity. The differential effect of the drugs on low density lipoprotein suppression of reductase activity was not unique to IEC-6 cells, but was also observed in several cell lines of different tissue origin such as human skin fibroblast cells (GM-43), human hepatoblastoma cells (HepG2), and Chinese hamster ovary cells (wild type, K-1; 4 alpha-methyl sterol oxidase mutant, 215). These observations suggest that the suppressive action of low density lipoprotein on reductase activity 1) does not require the de novo synthesis of cholesterol, or 24(S), 25- epoxysterols; 2) is not mediated via the same mechanism as that of mevalonolactone; and 3) does not involve cholesteryl reesterification. Ketoconazole blocks a site in the process of LDL suppression of reductase activity that is not affected by miconazole.
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