Hypothalamic luteinizing hormone releasing factor and corticotrophin releasing activity in relation to pituitary and plasma hormone levels in male and female rats.

Hypothalamic corticotrophin releasing (CR) activity and LH-releasing factor (RF) content, and pituitary and plasma LH, FSH and ACTH were measured in adult male and female Wistar rats maintained under 14 h light per day. Hypothalamic LH-RF and pituitary and plasma hormones were estimated by radioimmunoassay while CR-activity was assessed by the amount of ACTH released from hemipituitaries in vitro. Two experiments were carried out on male animals. In the first, some of the animals were kept in a room, distant from the animal house, in which the lighting was reversed with respect to the external environment. In animals exposed to the reversed lighting regime, hypothalamic LH-RF content and pituitary gonadotrophin concentrations were significantly lower than the values in male rats kept in the animal house where they were in close proximity to female rats. In the second experiment, which was carried out on animals which had all been kept in the animal house, there was no significant differences between the LH-RF contents measured at 3-4 h intervals throughout the day. Pituitary LH and FSH contents, but not concentrations, were significantly increased at 12.00 h. There was little differences between the experiments in CR-activity, plasma ACTH concentrations and profiles of pituitary ACTH content and concentration. As expected there was a diurnal rhythm in plasma corticosterone concentrations (determined by competitive protein-binding assay) with the peak occurring between 15.00 and 18.00 h. The profiles of plasma and pituitary ACTH were similar to that of plasma corticosterone. Corticotrophin releasing activity dropped significantly between 12.00 and 16.00 h, but remained steady at the other times. In female rats there were no significant differences between hypothalamic LH-RF content throughout the 4-day cycle. During pro-oestrus the mean LH-RF content rose to teach a high level at 18.00 h at which time plasma LH concentration had risen sharply to a level consistent with the peak of the preovulatory surge. Plasma FSH concentration also rose significantly between 15.00 and 18.00 h of pro-oestrus. At metoestrus and dioestrus, plasma FSH levels were lower in the morning than in the evening. These results suggest that (1) there is no diurnal rhythm in hypothalamic LH-RF, (2) there may be a diurnal rhythm in pituitary gonadotrophin content in the male and in plasma FSH concentration on the days of metoestrus and dioestrus in the female, (3) if a surge of LH-RF does occur on the afternoon of pro-oestrus, the rate of LH-RF synthesis exceeds its release, and (4) the mechanism which regulates gonadotrophin secretion in the male may be affected by factors in the environment other than daylength. The results provide further evidence for the view that the diurnal rhythm of corticosterone secretion is under hypothalamo-hypophysial control.