Ca2+ signal stimulates the expression of steroidogenic acute regulatory protein and steroidogenesis in bovine adrenal fasciculata-reticularis cells.

Adrenal glucocorticoid synthesis is stimulated by ACTH or its nitrophenylsulphenyl derivative, NPS-ACTH. Acute stimulation of steroid hormone biosynthesis is highly dependent on the expression of steroidogenic acute regulatory (StAR) protein. To determine the regulatory mechanism of StAR expression in bovine fasciculata/reticularis cells, we analyzed the second messenger systems involved in StAR protein expression using cultured cells activated by ACTH and NPS-ACTH. We concluded that cAMP is not the essential second messenger for StAR protein expression, since NPS-ACTH activated StAR protein expression more than ACTH without increase in cellular cAMP. A 15-lipoxygenase metabolite(s) of arachidonic acid stimulated steroidogenesis without increase in StAR protein expression, since AA-861, a lipoxygenase inhibitor, inhibited steroidogenesis without affecting StAR protein expression. Stimulation of StAR protein expression and the corresponding increase in the steroidogenesis were inhibited by nicardipine in cells treated with ACTH or NPS-ACTH. These data indicate that the dominant second messenger for the stimulation of StAR protein expression is Ca2+. Calmodulin-dependent kinase II inhibitors KN-93 and KN-62 suppressed steroidogenic activity without affecting StAR expression. The protein kinase C inhibitor Ro 31-8220 did not show any effects on StAR expression and steroidogenesis. Calmodulin-dependent kinase II and protein kinase C can therefore be concluded not to be involved in StAR protein expression in bovine cells.

Membrane reconstitution of recombinant guinea pig cytochrome P45017alpha and the effects of site-directed mutagenesis on androgen formation.

Although cytochrome P45017alpha catalyzes the formation of androgen from both pregnenolone and progesterone, the production of androstenedione from progesterone is a major pathway in the guinea pig, rat, mouse, and hamster. In contrast, human, bovine and sheep P45017alpha produce dehydroepiandrosterone from pregnenolone. Cytochrome P45017alphas from all of these animals have high homology in the amino acid sequence around the 340-370 region. To investigate the substrate preferences for androgen production, we replaced a few amino acids in the 340-370 region of guinea pig P45017alpha with those found in the other animals. The recombinant P45017alphas were expressed in E. coli DH5alpha, purified by column chromatography and incorporated into liposome membranes. The (His)(4) tag in the recombinant P45017alphas had little effect on the interaction with NADPH-P450 reductase in the membranes. The recombinant P45017alphas with a single-position mutation of F344I, H349R or M352L and with double-position mutations of F344I and H349R and triple-position mutations showed decreases in the production of 17alpha-hydroxypregnenolone, androstenedione and dehydroepiandrosterone. The activity for 17alpha-hydroxyprogeterone production was increased significantly by the F344I mutation. The addition of cytochrome b5 did not have much of an effect on the 17alpha-hydroxylation but had a significant effect on androgen production in both the nonmutated and mutated P45017alphas.