The porcine ovarian follicle: III. Development of chorionic gonadotropin receptors associated with increase in adenyl cyclase activity during follicle maturation

Abstract

Specific binding of human chorionic gonadotropin (hCG), and the hCG-sensitive adenyl cyclase of granulosa cells from small (1-2 mm), medium (3-5 mm), and large (6-12 mm) porcine ovarian follicles have been studied. The number of hCG-binding sites per cell (n) increases during follicle maturation without a change in the binding affinity. The values for n were 300-400 for small, 1,000-1,600 for medium, and 8,200-10,000 for large-follicle cells. The dissociation constant is 2.4 X 10(-10)M for all cells. hCG-sensitive adenyl cyclase was demonstrated in porcine granulosa cells. The adenyl cyclase system of granulosa cells becomes increasingly responsive to hCG stimulation during follicle development. Maximal adenyl cyclase activation by hCG (1 mug/ml) was 240, 750, and 7,000 molecules of cyclic AMP formed/sec/cell, respectively, for small, medium, and large follicle cell. The concentration of hCG giving half-maximal stimulation (1.0 X 10(-9)M) was similar for both large and medium follicle cells. It is concluded that: 1) an increase in hCG receptor sites per cell occurs during maturation of the porcine ovarian follicle without change of binding affinity, and 2) the increase in the number of hCG receptors correlates well with hCG-sensitive adenyl cyclase activity during follicle development.