Regulation of cholesterol biosynthesis in HeLa S3G cells by serum lipoproteins: Dexamethasone-mediated interference with suppression of 3-hydroxy-3-methylglutaryl coenzyme A reductase

AUTOR(ES)

Cavenee, Webster K.

RESUMO

Depression of the activity of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase [mevalonate:NADP+ oxidoreductase (CoA-acylating); EC 1.1.1.34] was elicited by the removal of serum from the growth medium of HeLa S3G cells with a concomitant expected increase in cellular sterol biosynthesis; if dexamethasone (9α-fluoro-11β,17α,21-trihydroxy-16α-methyl-1, 4-pregnadiene-3,20-dione) was present in the serumless medium, there was an augmentation of HMG-CoA reductase activity but a suppression of sterol biosynthesis. When human serum, human low density lipoprotein, or calf serum was present in the medium, there was a reduction of both the enzyme activity and sterol biosynthesis, but the presence of dexamethasone resulted in an increase in HMG-CoA reductase activity as compared to the controls containing human serum, low density lipoprotein, or calf serum alone. In contrast, either low density lipoprotein or whole serum supplementation eliminated the differences in acetate incorporation into sterols between glucocorticoid-treated and untreated cells. Human high density lipoproteins had little effect on the enzyme activity and abolished the difference in sterol biosynthesis only at relatively high concentrations. Addition of low density lipoproteins to cells after preincubation in serumless medium elicited the same rate of decay of HMG-CoA reductase (t1/2 3.8-4.2 hr) regardless of the presence of glucocorticoids in the medium, but there was an exaggerated lag before the onset of suppression in the hormone-treated cells. If free cholesterol was present in the medium, the dexamethasone augmentation of HMG-CoA reductase was maintained, but the addition of either 7-ketocholesterol or 25-hydroxycholesterol abolished the difference between glucocorticoid-treated and control cells. These observations suggest that, under certain physiological conditions, HMG-CoA reductase activity no longer accurately reflects cellular sterol biosynthesis.

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