CIRCULATING BIOACTIVE FOLLICLE STIMULATING HORMONE AND IMMUNOREACTIVE INHIBIN LEVELS DURING THE NORMAL HUMAN MENSTRUAL CYCLE

Abstract

To examine the relationship between circulating levels of bioactive FSH (B-FSH) and immunoactive inhibin and oestradiol we studied five women during ovulatory cycles. Daily blood samples were collected from each subject during one menstrual cycle. B-FSH was measured using a modified, highly sensitive in-vitro rat granulosa cell bioassay. The inclusion of IGF-1 (10 micrograms/l) and transferrin (50 mg/l) in the assay system enhanced granulosa cell responsiveness to FSH and resulted in increased assay sensitivity. Inhibin was measured by a heterologous radioimmunoassay (RIA) using an antibody raised against 31 kDa bovine inhibin. Bioactive FSH (B-FSH) levels were closely correlated to those of immunoactive FSH (I-FSH, r = 0.79, P less than 0.001) throughout the cycle. Peak levels of B-FSH were observed during the early follicular phase (day -13, 44.7 +/- 9.6 IU/l, mean +/- SEM) and during the midcycle surge (35.2 +/- 6.2 IU/l); lowest levels occurring during the luteal phase (nadir 3.9 +/- 0.27 IU/l). Plasma oestradiol levels increased significantly during the follicular phase (P less than 0.001) to a peak on day -1 and were negatively correlated with B-FSH during the late follicular phase (day -8 to -1; r = -0.45, P less than 0.02). There was no change in the concentration of inhibin (range 55.3-72.3 U/l) during the follicular phase until day -2 after which an increase to a midcycle peak of 139 +/- 10.6 U/l was observed. No correlation was observed between inhibin and B-FSH during the follicular phase. A second increase in the concentration of inhibin was seen during the luteal phase; peak levels occurred by day 6 (311 +/- 25.8 U/l), remained elevated until day 12, and were negatively correlated with B-FSH (r = -0.53, P less than 0.001). No correlation was observed between oestradiol and inhibin or B-FSH during the luteal phase. We conclude that (1) oestradiol secretion from the growing follicle is primarily responsible for the negative feedback regulation of B-FSH resulting in a change from peak levels in the early follicular phase to basal levels in the late follicular phase; (2) significant and sustained increase in peripheral inhibin concentrations occur mostly during the luteal phase; and (3) regulation of FSH secretion by inhibin occurs primarily in the luteal phase. These results suggest a temporal relationship between oestradiol and inhibin in the negative feedback regulation of FSH in vivo.