Abstract
We previously reported (Lambeth, J. D., Xu, X. X., and Glover, M. (1987) J. Biol. Chem. 262, 9181-9188) that exogenously added cholesterol sulfate inhibits the conversion of cholesterol to pregnenolone in isolated adrenal mitochondria, and does so by affecting intramitochondrial cholesterol movement but not its subsequent metabolism to pregnenolone by cytochrome P-450scc. We now report that a major kinetic component of the inhibition is noncompetitive with respect to cholesterol, consistent with an allosteric effect at a site other than the substrate binding site of cytochrome P-450scc. We now also report that cholesterol sulfate is present as an endogenous compound in preparations of adrenal mitochondria. Its content varied from 0.05 to 0.8 nmol/mg protein. Cholesterol sulfate level correlated inversely with the mitochondrial cholesterol side-chain cleavage activity. Endogenous cholesterol sulfate thus appeared to account for the variable rates of pregnenolone synthesis which were seen in different mitochondrial preparations. Cholesterol sulfate was metabolized to pregnenolone sulfate by a mitochondrial side-chain cleavage system, but proved to be a relatively poor substrate for an extramitochondrial steroid sulfatase activity present in adrenal cortex. Confirming a role as a naturally occurring inhibitor, removal of endogenous mitochondrial cholesterol sulfate by metabolism to pregnenolone sulfate correlated with a 3-fold activation of cholesterol side-chain cleavage. We suggest that cholesterol sulfate functions in steroidogenic tissues to regulate the magnitude of the steroidogenic response.
Highlights
The present studies provide evidence that, in addition to the pharmacological effects of added cholesterol sulfate, endogenous cholesterol sulfate can modulate the steroidogenic capacity of adrenal mitochondria
This was supported by two findings: First, in a large number of individual preparations of activated mitochondria, the rate of pregnenolone synthesis correlated inversely with mitochondrial cholesterol sulfate content
Depletion of endogenous cholesterol sulfate via malate-supported metabolism resulted in a 3-fold activation of steroidogenesis
Summary
Heated to 100 "C for 1 h while additional acetonitrile was added Noncompetitive Inhibition of Cholesterol S i d e - c h i n Cleauperiodically to prevent drying. Age by Cholesterol Sulfate-In our previous studies (14) which. The cholesterol produced from acid hydrolysis was extracted into 2 volumes of cyclohexane. Recovery wastypically 40-70%, and cholesterol sulfate analyses were corrected . To theremainder of the cyclohexane,0.1 pg of stigmasterol was added as aninternal standard substrate, the concentration of added cholesterol sulfate required for half-maximal inhibition of mitochondrial [3H]pregnenolone generation was 6 PM. A 4000fold higher concentration of cholesterol (200 PM) was added, for gas chromatography. The and dissolved in and derivatized with 20 pl of N,O- concentration of added cholesterol did not influence the K; bis(trimethylsi1yl)acetamide. The residue was dissolved in 10 p1 of hexane and subjected to gas chromatography for cholesterol quantitation.
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