Inhibition of Progesterone Secretion from Granulosa Cells by Estradiol and Androgens in the Domestic Hen*

Abstract

We previously reported no difference in progesterone (P₄) secretion from the granulosa layer of the largest follicle (F₁) of the domestic hen regardless of the maturity of the F₁ follicle. However, coincubation of the granulosa and thecal layers resulted in inhibition of P₄ secretion from the less mature F₁, but not from the more mature F₁. The goal of this study was to determine if estradiol (E₂) and androgens secreted by the thecal layer suppress P4 production by the granulosa cells. We removed the granulosa layer from less mature Fi follicles and dispersed granulosa cells (1 × 10⁶) were incubated (3 h) in triplicate with one of these treatments: control, E₂, testosterone (T), androstenedione (A), and dihydrotestosterone (DHT; at concentrations of 1 × 10^-7, 1 x 10^-6, and 1 x 10^-6 M), LH (100 ng) as well as LH plus E₂, T, A, and DHT at the same concentrations. P₄ secretion was measured in the medium and cells, and the experiment was replicated seven times. We found a dose-related suppression of basal and LH-stimulated P4 production by all steroids. In a second experiment (n = 3–5), we tested the specificity of the androgens in suppressing P4 production by granulosa cells by using the aromatase inhibitor 7-(4′- amino)phenylthio-4-androstene-3,17-dione. This compound did not reduce the effectiveness of T in suppressing P4 production. Finally in Exp 3 (n = 4–7), E₂ and T were tested individually and in combination at concentrations of 1 × 10^-8-l × 10^-6 M. We found a possible synergistic effect, in that the combination of E₂ plus T suppressed P₄ to a greater degree than either steroid alone. Our results indicate that 1) E₂ and androgens suppress basal and LH-stimulated P₄ production by granulosa cells in a dose-related manner; 2) androgen suppression of P₄ production is not mediated by aromatization to estrogen; and 3) the suppressive effects of E₂ and androgens may be synergistic. We conclude that E₂ and androgens secreted by the thecal layer may regulate P₄ production by the granulosa layer. (Endocrinology123: 473–477, 1988)