Abstract

The regulation of cortisol synthesis and the expression of genes coding for steroidogenic proteins by 8-substituted cAMP and 8-substituted adenine derivatives were studied in bovine adrenal zona fasciculata (AZF) cells. At concentrations of 10-50 μM, 8-(4-chlorophenylthio)-cAMP (8CPT-cAMP), but not the poorly hydrolyzable Sp-8CPT-cAMP, stimulated large increases in cortisol synthesis and CYP17 mRNA expression. Of the three Epac (exchange protein activated by cAMP)-specific cAMP analogs, 8CPT-2'-OMe-cAMP, but not 8HPT-2'-OMe-cAMP or 8MeOPT-2'-OMe-cAMP, induced mRNAs for CYP17 and CYP11a1 steroid hydroxylases and stimulated cortisol synthesis. 8-Substituted adenine derivatives (10-200 μM), including 8PT-adenine, 8MeOPT-adenine, and 8CPT-adenine, stimulated similar large, concentration-dependent, and reversible increases in cortisol synthesis and steroid hydroxylase gene expression, whereas 8Br-adenine was ineffective. The phenylthio-adenine derivatives produced additive effects on cortisol synthesis when applied to AZF cells in combination with 8Br-cAMP. In contrast, no additivity was observed for these three compounds when used in combination with ACTH. 8PT-adenine did not activate PKA or inhibit DNA synthesis by AZF cells. 8PT-adenine-stimulated cortisol secretion and CYP17 steroid hydroxylase mRNA expression were potently inhibited by diphenyl-butylpiperidine T-type Ca(2+) antagonists. In AZF cells, 8PT-adenine and 8MeOPT-adenine induced the expression of both CACNA1H mRNA and associated Ca(v)3.2 Ca(2+) current. These results indicate that 8-chloro (but not 8-hydroxy- or 8-methoxy-)-phenylthio-cAMP analogs are converted to an active metabolite, 8CPT-adenine, that induces the expression of genes coding for steroidogenic proteins in bovine AZF cells. Other PT-adenine analogs also potently stimulate cortisol synthesis through the same unidentified signaling pathway that requires the expression of functional Ca(v)3.2 Ca(2+) channels. These phenylthio-adenine compounds and ACTH may stimulate cortisol synthesis through the same cAMP-independent mechanism.

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