Control of CYP11B2 gene expression through differential regulation of its promoter by atypical and conventional protein kinase C isoforms

We reported previously that the protein kinase C (PKC) inhibitor GF109203X stimulated the hamster CYP11B2 promoter activity in transfected NCI-H295 cells. PKCalpha, -epsilon, and -zeta were detected in hamster adrenal zona glomerulosa and NCI-H295 cells, and PKCtheta in NCI-H295 cells. 12-O-Tetradecanoylphorbol-13-acetate (TPA) inhibited basal and stimulated cytochrome P450 aldosterone synthase mRNA expression by angiotensin (AII), dibutyryl cyclic adenosine 3':5'-monophosphate (Bt2cAMP), or KCl in NCI-H295 cells. Basal CYP11B2 promoter activity was inhibited in cells cotransfected with constitutively active (CA) PKCalpha, -epsilon, and -theta mutants, whereas it was increased with CA-PKCzeta. Dominant negative (DN) PKCalpha, -theta, -epsilon, and -zeta mutants stimulated the promoter activity. AII-, KCl-, and Bt2cAMP-stimulatory effects were abolished in cells cotransfected with CA-PKCalpha, -epsilon, or -theta. The effect of Bt2cAMP was abolished by CA-PKCzeta but AII and KCl were still able to enhance the promoter activity. DN-PKCalpha, -epsilon, -theta, or -zeta did not inhibit these effects. G?6976 enhanced promoter activity, providing further evidence that PKCalpha was involved. Various CYP11B2 promoter constructs were used to identify the area associated with TPA and PKC inhibition. TPA and CA-PKCalpha, -epsilon, or -theta abolished the effects of AII, KCl, and Bt2cAMP on the activity of -102 and longer constructs. In summary, our findings suggest that the hamster CYP11B2 gene is under differential control by conventional (alpha) and atypical (zeta) PKC.