Corticotropin-induced changes in a soluble desmolase preparation

Abstract

Following simple homogenization, substantial desmolase activity is recovered in rat adrenal 105 000 × g supernatant. The desmolase complex sediments at 3–4 S on sucrose gradients, is found in the clear cytosol, requires NADPH, is derived from mitochondria and is inhibited by aminoglutethimide and pregnenolone. The lipid fraction contains little or no desmolase activity but greatly enhances pregnenolone synthesis in soluble desmolase preparations, presumably by supplying free cholesterol substrate. Prior adrenocorticotropin (ACTH) administration enhances pregnenolone synthesis in the 105 000 × g supernatant, and cycloheximide, an inhibitor of adrenal protein synthesis, does not block this effect of ACTH (but rather potentiates it). The ACTH effect may be largely explained by an increase in free cholesterol, which enhances the activity of both the lipid fraction and clear cytosol, since: free cholesterol levels are increased by ACTH, particularly with cycloheximide pretreatment; type I and inverted type I difference spectrum changes, indicating greater cholesterol availability for binding to cytochrome P-450, are enhanced by ACTH with or without cycloheximide treatment; cholesterol-rich lipid fraction enhances such spectral changes and obliterates the differences in spectral and pregnenolone-synthesizing activities betwen control and ACTH-stimulated soluble desmolase preparations; and desmolase stimulatory properties of clear cytosol co-chromatographs with [ 14C]cholesterol. Since cycloheximide blocks ACTH-induced effects in intact mitochondria but not in the soluble desmolase preparation, it is postulated that the labile protein required during ACTH action functions to overcome a śrestraining influence’ which is present in intact mitochondria but not in the soluble desmolase system. The ‘restraining influence’ may be due to limited cholesterol-desmolase interaction.