Biochemical factors governing the steady-state estrone/estradiol ratios catalyzed by human 17beta-hydroxysteroid dehydrogenases types 1 and 2 in HEK-293 cells.

Human 17beta-hydroxysteroid dehydrogenase types 1 and 2 (17betaHSD1 and 17betaHSD2) regulate estrogen potency by catalyzing the interconversion of estrone (E1) and estradiol (E2) using nicotinamide adenine dinucleotide (phosphate) cofactors NAD(P)(H). In intact cells, 17betaHSD1 and 17betaHSD2 establish pseudo-equilibria favoring E1 reduction or E2 oxidation, respectively. The vulnerability of these equilibrium steroid distributions to mutations and to altered intracellular cofactor abundance and redox state, however, is not known.

5alpha-reduced C21 steroids are substrates for human cytochrome P450c17.

The 5alpha-reduction of testosterone in target tissues is a key step in androgen physiology; however, 5alpha-reduced C(19) steroids are sometimes synthesized in testis via a pathway that does not involve testosterone as an intermediate. We studied the metabolism of 5alpha-reduced C(21) steroids by human cytochrome P450c17 (hCYP17), the enzyme responsible for conversion of C(21) steroids to C(19) steroids via its 17alpha-hydroxylase and 17,20-lyase activities. hCYP17 17alpha-hydroxylates 5alpha-pregnan-3,20-dione, but little androstanedione is formed by 17,20-lyase activity.

5alpha-androstane-3alpha,17beta-diol is formed in tammar wallaby pouch young testes by a pathway involving 5alpha-pregnane-3alpha,17alpha-diol-20-one as a key intermediate.

The synthetic pathway by which 5alpha-androstane-3alpha,17beta-diol (5alpha-adiol) is formed in the testes of tammar wallaby pouch young was investigated by incubating testes from d 20-40 males with various radioactive precursors and analyzing the metabolites by thin-layer chromatography and HPLC. [(3)H]Progesterone was converted to 17-hydroxyprogesterone, which was converted to 5alpha-adiol by two pathways: One involves the formation of testosterone and dihydrotestosterone as intermediates, and the other involves formation of 5alpha-pregnane-3alpha,17alpha-diol-20-one (5alpha-pdiol) and androsterone as intermediates. Formation of 5alpha-adiol from both [(3)H]testosterone and [(3)H]progesterone was blocked by the 5alpha-reductase inhibitor 4MA.