Interference with the Gonadotropin-Suppressing Actions of Estradiol in Macaques Overrides the Selection of a Single Preovulatory Follicle*

Abstract

The role of the gonadotropin-suppressing effects of estradiol on the maturation of a single ovulatory follicle in cynomolgus monkeys (Macaca fascicularis) was examined by administering ovine antiestradiol antibodies during the mid through late follicular phase of the menstrual cycle. In each of 3 control animals, when the ovary containing the maturing follicle was removed during the late follicular phase, histological examination of the remaining ovary 10 days later revealed the presence of a single large maturing follicle. In contrast, in 3 experimental animals, when estradiol antibodies were infused from days 5 through 10 after unilateral ovariectomy, serum FSH and LH [luteinizing hormone] concentrations were elevated above those of control animals, and histological examination of ovaries 10 days after unilateral ovariectomy revealed the presence of 2 large maturing follicles in the remaining ovary of 2 animals and 4 large maturing follicles in the remaining ovary of the 3rd animal. The ability of follicles recruited during passive immunization with estradiol antibodies to respond to exogenous gonadotropin was studied. In 3 control animals, the maturing follicle was destroyed on day 10 of the follicular phase, and 3 days later, each animal received an ovulatory dose of human CG [chorionic gonadotropin]. None of the control animals produced progesterone. In 3 experimental animals a continuous infusion of estradiol antibodies was initiated on day 5 of the follicular phase, and the largest antral follicle was destroyed on day 10. Three day later the antibody infusions were terminated and each animal received an ovulatory dose of human CG. Each of these animals produced progesterone despite the destruction of the largest follicle 3 days earlier. Estradiol is the principal ovarian modulator of gonadotropin secretion during the follicular phase of the cycle and that interference with the gonadotropin-suppressing actions of estradiol results in continued recruitment and maturation of secondary follicles in the presence of a dominant follicle.