Testosterone-induced inhibition of spermatogenesis is more closely related to suppression of FSH than to testicular androgen levels in the cynomolgus monkey model (Macaca fascicularis)

Abstract

We have investigated the antigonadotropic and antispermatogenic effects of exposure to a long-acting testosterone ester in the cynomolgus monkey model. Groups of five adult animals were exposed either to vehicle or to 10 mg/kg or 20 mg/kg testosterone buciclate (TB) over a 26-week period with injections given in weeks 0, 11 and 18. In week 26, testicular biopsy tissue was collected. Serum testosterone levels were in the upper normal range with 10 mg/kg TB and were approximately twofold higher with 20 mg/kg TB. The estradiol pattern followed that of testosterone and body weights increased in a testosterone-dependent manner. TB completely abolished serum LH bioactivity. Serum concentrations of FSH and inhibin-alpha were suppressed in a TB dose-dependent manner. During weeks 4-8 after the first injection, a rebound of FSH and inhibin but not bioactive LH secretion occurred. This rebound was followed immediately by a restimulation of testis size and sperm numbers. After the next TB injections these parameters were once again suppressed. Nadir testis size was 30-40% of baseline and animals were severely oligozoospermic or transiently azoospermic. Consistent azoospermia was not achieved. Quantitation of serum inhibin B, proliferating cell-nuclear antigen staining and flow cytometric analysis of germ cell populations revealed pronounced suppression of spermatogenesis in both TB-treated groups whereas androgen receptor expression remained unchanged. Testicular androgens levels, determined in week 26, did not differ among all three groups and did not correlate with sperm numbers, histological and immunocytochemical findings. All suppressive effects were fully reversed during the recovery period. We have concluded that pronounced suppression of primate spermatogenesis seemingly requires inhibition of FSH rather than testicular androgen levels, at least in this preclinical non-human primate model. For the purpose of male contraception, FSH inhibition appears mandatory.