The 17, 20-lyase activity of cytochrome p450c17 from human fetal testis favors the Δ5 steroidogenic pathway

Cytochrome P450c17 catalyzes both 17alpha-hydroxylation and 17,20-lyase conversion of 21-carbon steroids to 19-carbon precursors of sex steroids. P450c17 can mediate testosterone biosynthesis via the conversion of pregnenolone to dehydroepiandrosterone (the Delta(5) pathway) or via conversion of progesterone to androstenedione (the Delta(4) pathway). In many species, the 17, 20-lyase activity of P450c17 for one pathway dominates, reflecting the preferred steroidogenic pathway of that species. All studies of recombinant human P450c17 and of human adrenal microsomes have found high 17, 20-lyase activity only in the Delta(5) pathway. Because the 17, 20-lyase activities in both the Delta(4) and Delta(5) pathways for testicular P450c17 have not been directly compared, however, it is not known if the Delta(5) pathway dominates in the human testis. To resolve this issue, we assayed the conversion of 17alpha-hydroxypregnenolone to dehydroepiandrosterone (Delta(5) 17, 20-lyase activity) and of 17alpha-hydroxyprogesterone to androstenedione (Delta(4) 17, 20-lyase activity) by human fetal testicular microsomes. We obtained apparent Michaelis constant ( Km) and maximum velocity (V(max)) values of 1.0 muM and 0.73 pmol.min(-1).mug(-1) for Delta(5) 17, 20-lyase activity and of 3.5 muM and 0.23 pmol.min(-1).mug(-1) for Delta(4) 17, 20-lyase activity. Catalytic efficiencies, expressed as the ratio V(max)/K(m), were 0.73 and 0.066 for the Delta(5) and Delta(4) reactions, respectively, indicating 11-fold higher preference for the Delta(5) pathway. We conclude that the majority of testosterone biosynthesis in the human testis proceeds through the conversion of pregnenolone to dehydroepiandrosterone via the Delta(5) pathway.