Testosterone-binding protein in reproductive tracts of fetal rats.

Testosterone-binding proteins may mediate the induction of Wolffian duct differentiation by testicular testosterone. The presence of such protein(s) was sought in reproductive tracts of 14.5-21.5-day-old fetal rats. Supernatant fractions (127,000 x g) were equilibrated with [3H]T) +/- radioinert testosterone in Tris - HCl:EDTA buffer, pH 7.4, (approximately 0.1 mg protein/0.5 ml) at 4 C for 16 hours. Bound and free (3H)T were separated by charcoaldextran adsorption or Sephadex G-100 gel filtration. The results with 14.5-15.0-day-old tracts were: a) specific binding to protein was saturated with increasing (3H)T concentration; b) Scatchard plot analysis indicated the presence of a single class of binding sites with high affinity (apparent Kd = 2 nM) and limited capacity (approximately 16 fmol/mg protein) for (3H)T; c) specific uptake was limited to (3H)T and (3H)5 alpha-dihydrotestosterone; d) (3H)T uptake by the tract supernatant was tissue-specific; e) pronase treatment abolished binding capacity for (3H)T; f) bound radioactivity consisted solely of (3H)T; and g) the mesonephric and ductal segment of the genital tract specifically binds (3H)T. The data demonstrate binding protein(s), specific for testosterone and possibly dihydrotestosterone, in the genital ducts of 14.5-15-day-old fetal rats. (3H)T binding to genital duct supernatants from male but not from female fetuses increased about 5-fold between 14.5 and 20.5 days of gestation. Upon Sephadex G-100 gel filtration, radioactivity was confined to the macromolecular fraction appearing in the void volume. Nuclear fractions, obtained from intact ducts incubated with (3H)T at 30 C but not at 0 C contained radioactivity. These observations are compatible with the existence of a cytoplasmic testosterone receptor or carrier protein aggregate. We have thus concluded that testosterone-binding proteins are present in the genital ducts of rat fetuses and that, in the male, their concentrations increase with progressive Wolffian duct differentiation.