A change in the steroid metabolic pathway in human testes showing deteriorated spermatogenesis.

During androgen biosynthesis, the human testes normally produce only small quantities of Δ-C steroids as these are products of the Δ-pathway and healthy human testes preferentially use the Δ-pathway. However, the Δ-C steroid progesterone accumulates in the thickened lamina propria of the seminiferous tubules in testes with deteriorated spermatogenesis. The objectives of this study were to analyse the pregnenolone metabolites in testes with deteriorated spermatogenesis and to establish whether the androgen biosynthesis pathway changes in this condition. Biopsied or orchiectomised testicular samples were obtained from patients with varicocele, non-obstructive azoospermia, obstructive azoospermia, testicular cancer, and cryptorchidism. The samples were segregated into spermatogenesis related Johnsen's score groups: Low-JS (< 5.0) and High-JS (> 7.8). Higher levels of progesterone and 17α-hydroxyprogesterone were metabolised under in vitro conversion in the Low-JS testes than the High-JS testes when cell-free homogenates from each group were separately incubated with C-labelled pregnenolone. Nevertheless, the serum hormone levels did not differ between groups. Two novel pregnenolone metabolites 5β-pregnan-3β-ol-20-one and 5α-pregnan-3α, 21diol-20-one were identified from in vitro conversion in Low-JS testes and by recrystallisation. Immunohistochemistry revealed the higher βHSD expression in the Low-JS than the High-JS testes. However, the CYP17A1 expression levels did not differ between groups. Infertile testes increase the relative βHSD levels in their Leydig cells and synthesised testosterone from pregnenolone via the Δ- rather than the Δ-pathway. A new insight into a change of metabolites in Low-JS testes will be relevant to understand the mechanism of the deteriorated spermatogenesis under the normal range of testosterone level.