Regulation of expression of the 3β-hydroxysteroid dehydrogenases of human placenta and fetal adrenal

The appropriate expression of 3β-hydroxysteroid dehydrogenase/Δ^5→4-isomerase (3β-HSD) is vital for mammalian reproduction, fetal growth and life maintenance. Several isoforms of 3β-HSD, the products of separate genes, have been identified in various species including man. Current investigations are targeted toward defining the processes that regulate the levels of specific isoforms in various steroidogenic tissues of man. High levels of expression of 3β-HSD were observed in placental tissues. It has been generally considered that the multinucleated syncytiotrophoblastic cells are the principal sites of 3β-HSD expression and, moreover, that 3β-HSD expression is intimately associated with cyclic AMP-promoted formation of syncytia. Herein we report the presence of 3β-HSD immunoreactive and mRNA species in uninucleate cytotrophoblasts in the chorion laeve, similar to that in syncytia but not cytotrophoblast placenta. In vitro, 3β-HSD levels in chorion laeve cytotrophoblasts were not increased with time nor after treatment with adenylate cyclase activators, whereas villous cytotrophoblasts spontaneously demonstrated progressive, increased 3β-HSD expression. Moreover, 3β-HSD synthesis appeared to precede morphologic syncytial formation. Thus high steroidogenic enzyme expression in placenta is not necessarily closely linked to formation of syncytia. Both Western immunoblot and enzymic activity analyses also indicated that the 3β-HSD expressed in these cytotrophoblastic populations was the 3β-HSD type I gene product (M_r, 45K) and not 3β-HSD type II (M_r, 44K) expressed in fetal testis. In cultures of fetal zone and definitive zone cell of human fetal adrenal, 3β-HSD expression was not detected until ACTH was added. ACTH, likely acting in a cyclic AMP-dependent process, induced 3β-HSD type II activity and mRNA expression. The higher level of 3β-HSD mRNA in definitive zone compared with fetal zone cells was associated with parallel increases in cortisol secretion relative to dehydroepiandrosterone sulfate formation.