Specific physiological regulation of luteinizing hormone secretory events throughout the human menstrual cycle: new insights into the pulsatile mode of gonadotropin release.

Abstract To investigate the physiological regulation of luteinizing hormone (LH) secretory events and the endogenous clearance of this hormone, we applied multiple-parameter deconvolution analysis to serum LH concentration-time series obtained from normal women during three phases of the menstrual cycle. The number of significant LH secretory bursts (/24 h) was maximal in the late follicular (LF) phase (27 +/- 1.6; mean +/- SEM), minimal in the mid-luteal (ML) phase (10 +/-1.

Nature of gonadotropin-releasing hormone self-priming of luteinizing hormone secretion during the normal menstrual cycle.

To investigate further the nature of the gonadotropin-releasing hormone self-priming effect on luteinizing hormone release, we administered two submaximal doses of gonadotropin-releasing hormone 2 hours apart to women at three stages of the menstrual cycle and analyzed the resultant luteinizing hormone secretory episodes with deconvolution analysis. When the characteristics of the secretory episodes associated with the second gonadotropin-releasing hormone challenge were compared with those associated with the first, both an enhanced maximal secretory rate and mass of luteinizing hormone secreted was demonstrable at each phase of the cycle. No differences in the luteinizing hormone secretory event half-duration were detected when the responses to the first and second gonadotropin-releasing hormone doses were compared.