Synchronous fluctuations of LH and FSH in plasma samples collected daily during the estrous cycle in mares

Abstract

Circulating concentrations of LH and FSH in each of 12 mares were measured in daily blood samples from 3 d before until 3 d after an interovulatory interval (ovulation=Day 0). The interval was normalized to its mean length (22 d) and partitioned into periods relative to high and low (first significant increase and decrease: Days 3 and 14, respectively) mean FSH concentrations. The resulting experimental periods were as follows: 1) Days −3 to 2 corresponding to the periovulatory period, 2) Days 3 to 14 corresponding to the luteal period, and 3) Days −7 to 3 corresponding to the follicular-periovulatory period. An adaptive threshold method was used to detect peak concentrations of LH and FSH fluctuations. There was no significant difference in the number of detected LH fluctuations per mare among the 3 periods (means, 1.2, 1.8, 1.6 fluctuations, respectively). However, more (P<0.05) FSH fluctuations per mare were detected during the luteal period (mean, 2.4 fluctuations) than during the periovulatory period (mean, 0.5 fluctuations) and follicular-periovulatory period (mean, 1.2 fluctuations). Synchronous LH and FSH fluctuations, defined as the simultaneous detection of peak concentrations of fluctuations, occurred more (P<0.05) often per mare during the luteal period (mean, 1.3 fluctuations) than during the periovulatory period (mean, 0.1 fluctuations) and follicular-periovulatory period (mean, 0.2 fluctuations). During the luteal period, concentrations of LH peaked (P<0.05) during FSH fluctuations and, conversely, concentrations of FSH peaked (P<0.05) during LH fluctuations, indicating a high degree of coupling between the 2 gonadotropins. In summary, fluctuations of LH and FSH occurred in synchrony with a high degree of coupling between them during the luteal period, but not during the periovulatory and follicular-periovulatory periods.