To investigate the possible role of melatonin in the regulation of the human menstrual cycle, the circadian pattern of melatonin was determined in the follicular and luteal phases of 10 normal women. Four-hourly sampling was used to derive a melatonin index which described the total exposure to melatonin for 24 h. This sampling procedure adequately represented the circadian melatonin output and demonstrated that pulses of melatonin secretion, inconsistent with a measured half-life of 47 min, did not exist. A significant increase (P less than 0.001) in the melatonin index was found in the luteal phase compared to that in the follicular phase. To investigate the influence of exogenous progestins on the melatonin pattern, repeated 24-h profiles were measured in 8 women taking the 3-phase contraceptive pill. There was a significant increase (P less than 0.01) in the melatonin index associated with an increase in the dose of progestin. These results are consistent with a positive relationship between melatonin and progesterone and suggest that changes in the circadian pattern of melatonin secretion, rising during the luteal phase with a fall before ovulation, may act as a modulator of cyclicity.
Melatonin, at concentrations and periods of exposure reflecting those present during the circadian cycle, was investigated for its influence on steroid production by granulosa cells cultured in serum-supplemented medium. At high (200 pg/ml) but not low (20 pg/ml) physiological concentrations, melatonin significantly stimulated progesterone production by human granulosa cells. This response was independent of the overall level of cell activity and was seen under the different culture conditions associated with different culture media. Exposure to melatonin for 8 h significantly stimulated progesterone secretion to a level similar to that achieved under continuous exposure, and the effect was reduced to control levels during subsequent periods in which no melatonin was added. Melatonin had no consistent effect on aromatase activity in the conversion of stored or serum-available androgen to oestradiol. Melatonin significantly stimulated progesterone production by bovine granulosa cells in vitro, at concentrations similar to those present during the endogenous nocturnal rise (100-400 pg/ml). This response to physiological conditions by human and bovine cells suggests a role for melatonin in the regulation of progesterone production by the ovary.
Granulosa cells, aspirated from the follicles of patients undergoing treatment for in-vitro fertilization, were cultured in serum-supplemented medium. Adrenaline and noradrenaline stimulated a dose-related increase in progesterone secretion with a maximum stimulation at 10(-5) M, a response that was prevented by the beta-antagonist, propranolol. Adrenaline and hCG showed similar characteristics in their stimulation of progesterone secretion but there was no further increase in progesterone when the 2 compounds were added together. Melatonin stimulated progesterone secretion and, like adrenaline, this stimulation was prevented by propranolol. The ability of both adrenaline and melatonin to increase progesterone secretion was dependent on the degree of follicular development, as determined by peripheral oestradiol concentrations, on the day of laparoscopy. These results suggest that adrenaline and melatonin may have a physiological role in modulating luteal function and that melatonin may act by a beta-adrenergic-related mechanism.
The role of melatonin in animals which do not show marked seasonal changes in reproduction is disputed, in part because of the wide variation in reported concentrations. One reason for this may be the difficulties associated with the measurements of low molar concentrations of melatonin and the presence of a wide variety of potentially cross-reacting substances. The availability of a high affinity antiserum has allowed an assay, with low cross-reactivity and good sensitivity, to be established for the direct measurement of melatonin in a wide range of biological fluids, in particular serum, plasma and follicular fluid from man and rat. The high affinity of the antiserum enabled a tritium label of high specific activity to be used, removing the problems associated with the iodination of a small molecular weight compound. Melatonin concentrations in the assay were evaluated by four different methods: UV absorbance, gas chromatography, comparison of the immunoreactive concentrations of the label with the expected concentration by dilution and by comparison with a previously established assay which uses the same antiserum. Melatonin was measured in serum from twelve healthy women over two 24-h periods; eight women with normal menstrual cycles and four taking the contraceptive pill. Concentrations were found to range from 19.8 to 215 pmol/l during the day in both groups. In women with normal menstrual cycles peak concentrations of 513.2 +/- 54.1 (S.E.M.) pmol/l were recorded at 04.00 h, whereas higher concentrations were found in women taking the pill, reaching a peak of 849.12 +/- 21.8 (S.E.M.) pmol/l at 04.00 h.(ABSTRACT TRUNCATED AT 250 WORDS)
The Grey squirrel shows two peaks of litter production in spring and summer, but this does not necessarily mean that all female squirrels have two litters per year. Captive female squirrels do not show regular oestrous cycles, and there is evidence that both the presence of a male and adequate space is necesssary for the induction of oestrus. After day sixteen of gestation, the ovaries are not necessary for the maintenance of gestation. Our studies indicate that the male Grey squirrel has a seasonal period of t esticular regression in the autumn, which may be short‐lived so that full breeding condition is attained by December In some years, localized populations of Grey squirrels may have a prolonged period of testicular regression throughout the winter, with a consequent absence of spring breeding, and there is some evidence that this may be related to available food.
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