17alpha-Hydroxylase gene expression in the bovine ovary: mechanisms regulating expression differ from those in adrenal cells.

17alpha-Hydroxylase cytochrome P450 (P450(17alpha)) is the enzyme which synthesizes C19 steroids in a two-step reaction in which 17alpha-OH pregnenolone is an intermediate. In the bovine and human adult female, 17alpha-hydroxylase is expressed in adrenocortical cells where 17alpha-OH pregnenolone and 17alpha-OH progesterone are precursors of cortisol, and in theca cells of the ovary where these intermediates are precursors of C19 steroids. In both adrenal cortex and theca, 17alpha-hydroxylase gene expression is stimulated by cyclic AMP (cAMP). The aim of this study was to determine the mechanism regulating 17alpha-hydroxylase gene expression in the bovine ovary. Our results indicate that the bovine 17alpha-hydroxylase gene is regulated in a tissue-specific fashion. Primer extension and S1 nuclease protection assays reveal that the start site of transcription in the theca is identical to that in the adrenal. Transfection studies employing beta-globin reporter gene constructs fused to successive deletions of the 5' regulatory region of the bovine 17alpha-hydroxylase gene indicate that sequences between -80 and -37 basepairs (bp) (CRS2) confer cAMP-regulated transcription in bovine theca cells in culture. These results are in contrast to similar studies conducted in bovine adrenocortical cells, which indicate that the major cAMP response element (referred to as CRS1) is located at -243 to -225 bp. The Ad4 element (AGGTCA, -42 to -37 bp) within CRS2, which has been shown to be involved in cAMP responsiveness in other steroidogenic P450 genes, cannot by itself confer cAMP-regulated reporter gene expression in bovine cells. These results indicate that in the cow, 17alpha-hydroxylase gene expression is regulated in a tissue-specific fashion, and that this regulation may be conferred, at least in part, by the use of tissue-specific cis-acting elements in the bovine 17alpha-hydroxylase gene.

Maintenance and regulation of 17 alpha-hydroxylase expression by bovine thecal cells in primary culture.

We have developed and characterized a primary cell culture system to study the regulation of 17 alpha-hydroxylase cytochrome P450 (P45017 alpha) gene expression in bovine thecal cells. Conditions have been established for the dispersal and growth of thecal cells isolated from bovine follicles, which maintain the expression of P45017 alpha for up to 8 days. Bovine theca interna cells were grown to subconfluence and transferred into medium containing forskolin, a stimulator of adenylate cyclase. Levels of P45017 alpha transcripts reached a maximum value after 48 h of stimulation with forskolin. Added progesterone was converted to 17 alpha-hydroxyprogesterone at a rate of 214 pmol/mg protein.h in cells treated with forskolin for 72 h, whereas in control cells, the rate was 9.2 pmol/mg protein.h after 72 h. This was reflected in a 10-fold increase in endogenous androstenedione production by forskolin-stimulated cells. Studies employing various growth factors suggest that transforming growth factor-beta, but not basic fibroblast growth factor, is a potent inhibitor of forskolin-induced 17 alpha-hydroxylase activity and androstenedione production in these cells. We have also characterized this cell culture system with respect to expression of other steroidogenic enzymes. Cholesterol side-chain cleavage cytochrome P450 and 3 beta-hydroxysteroid dehydrogenase transcripts as well as endogenous progesterone accumulation were increased in response to forskolin stimulation. On the other hand, aromatase cytochrome P450 expression was undetectable. The ability to maintain bovine thecal cells, which retain 17 alpha-hydroxylase activity, in culture will provide a model system to study the regulation of expression of the P45017 alpha gene in the bovine ovary.