Testosterone inhibits spermatogonial differentiation in juvenile spermatogonial depletion mice

Abstract

The juvenile spermatogonial depletion (jsd) mutation results in spermatogonial arrest after the first wave of spermatogenesis. In homozygous jsd mice in a hybrid background (C3HxB6) that were identified with microsatellite markers, the percentage of tubules showing differentiating germ cells [tubule differentiation index (TDI)] rapidly decreased after 7 weeks of age with a correlative increase in the intratesticular testosterone (ITT) levels. Treatment with a GnRH antagonist, Cetrorelix, suppressed ITT and stimulated spermatogonial differentiation at the end of treatment. When treated mice were killed 5-13.3 weeks after the end of treatment, the ITT progressively increased, and the TDI progressively declined, but there was a transient appearance of tubules with mature spermatids. To delineate the role of testosterone (T) in spermatogonial arrest, we gave 7.6-week-old jsd mice exogenous T and/or the androgen receptor antagonist flutamide with or without GnRH antagonist for 4 weeks. Flutamide alone moderately stimulated spermatogonial differentiation (TDI = 30%). GnRH antagonist increased the TDI to 73%, and the addition of flutamide to the GnRH antagonist treatment further increased it to 95%. When T was combined with GnRH antagonist treatment, ITT was increased, and the TDI was reduced to 7%. Addition of flutamide to this combination reversed the T inhibition of GnRH antagonist stimulation of spermatogonial differentiation to a TDI of 57%. ITT levels showed a good negative correlation to the TDI obtained with various treatments, but no such correlation was observed for FSH or LH levels. The results indicate that T inhibits the ability of spermatogonia to differentiate in jsd mice through an androgen receptor-mediated process.