P. J. A. Moult scite author profile

Both the pituitary-adrenal axis and the pituitary-gonadal axis are under the tonic inhibitory control of endogenous opioid peptides in man. However, the precise opioid receptor involved in the modulation of these hormones remains unknown. The effect of a dose of intravenous naloxone on serum levels of luteinising hormone (LH), follicle-stimulating hormone (FSH) and plasma cortisol was therefore investigated in ten normal subjects. In the male subjects, naloxone at a dose of 25 µg/kg caused a significant increase in serum LH and FSH; no increase in response was seen at the two higher doses (100 µg/kg and 250 µg/kg). The lowest dose (6 µg/kg) caused no change in serum LH and FSH. In the female subjects, tested in the early follicular phase of their cycles, no dose of naloxone significantly increased circulating gonadotrophins. In both male and female subjects, naloxone only stimulated a rise in serum cortisol at the highest dose (250 µg/kg). A second study in six normal subjects demonstrated that the rise in cortisol with the highest dose of naloxone was secondary to a rise in plasma ACTH. It is concluded that the opioid receptor(s) controlling gonadotrophin release in man are naloxone-sensitive, and are probably epsilon-receptors; the naloxone insensitivity of the pituitary-adrenal axis suggests that these responses are modulated by kappa- or delta-receptors.

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The Opioid Control of Lh and FSH Release: Effects of a Met‐enkephalin Analogue and Naloxone

Grossman¹,

Moult²,

Gaillard³

et al. 1981

Clinical Endocrinology

172

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The effect of long-acting analogue of met-enkephalin (DAMME) and naloxone on gonadotrophin secretion has been investigated in man. In menopausal women DAMME induced a progressive fall in LH to approximately 60% of basal levels at 3 h, which was blocked by naloxone; there was a smaller fall in FSH that did not attain statistical significance. However, the LHRH-induced rise in LH and FSH in young male volunteers was unaffected by pretreatment with a high-dose DAMME infusion. Naloxone infusion in young male and female normal subjects produced a significant rise in both LH and FSH. Long-term infusion of naloxone appeared to increase the rate, and possibly the amplitude, of LH pulsatility. These results suggest that met-enkephalin-like opioid peptides exert a tonic inhibitory control of LH release in both menopausal and young subjects of both sexes. This control is most likely to be at the level of the hypothalamus, and involves modulation of pulsatile LHRH release.

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Pulsatile Gonadotrophin Secretion in Hyperprolactinaemic Amenorrhoea and the Response to Bromocriptine Therapy

Moult

Rees

Besser

1982

Clinical Endocrinology

110

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Serum gonadotrophin concentrations were measured every 15 min for 8 h in six patients before and at weekly intervals during initiation of bromocriptine treatment of hyperprolactinaemic amenorrhoea. Before treatment mean gonadotrophin levels were similar to those found in the normal follicular phase, but LH secretion was characterized by infrequent pulses of large amplitude. In three subjects the patterns of LH pulsatility and serum oestradiol levels returned to normal within 7 days of starting bromocriptine. The other three subjects responded with an increase in the frequency of LH pulses and mean LH levels, but little rise in oestradiol. Thus some hyperprolactinaemic subjects have a defect in the ovarian response to endogenous gonadotrophin stimulation, which may persist for a few weeks after return of prolactin levels to normal. The restoration of a normal rate of LH pulsatility with bromocriptine can occur without any change in serum oestradiol concentration.

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The Effect of Naloxone on Pulsatile Gonadotrophin Release in Normal Subjects

Moult

Grossman

Evans

et al. 1981

Clinical Endocrinology

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Opiate Mediation of Amenorrhoea in Hyperprolactinaemia and in Weight‐loss Related Amenorrhoea

Grossman

Moult

McINTYRE

et al. 1982

Clinical Endocrinology

107

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Endogenous opiates are involved in the control of pituitary gonadotrophin and PRL secretion, and possibly of food intake. Both hyperprolactinaemia and weight loss (especially in anorexia nervosa) are frequently associated with amenorrhoea and an absence of gonadotrophin pulsatility. Since it has been suggested that increased endogenous opiate tone may operate in both conditions, we infused high-doses of naloxone into twelve patients with amenorrhoea of whom five had hyperprolactinaemia and seven had weight-loss related amenorrhoea. Eleven of the twelve patients had low levels of oestradiol (less than 50 pmol/l). Naloxone induced a marked rise in both LH and FSH levels in all of the five hyperprolactinaemic patients. In contrast, the patients with weight-loss amenorrhoea responded to naloxone with only a small or no rise in gonadotrophins. There was no consistent change in PRL in either group of patients. It is concluded that in hyperprolactinaemia, but not weight-loss amenorrhoea, there is an important endogenous opiate-mediated tonic inhibition of secretion of hypothalamic gonadotrophin releasing hormone.

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P. J. A. Moult

Different Opioid Mechanisms Are Involved in the Modulation of ACTH and Gonadotrophin Release in Man

The Opioid Control of Lh and FSH Release: Effects of a Met‐enkephalin Analogue and Naloxone

Pulsatile Gonadotrophin Secretion in Hyperprolactinaemic Amenorrhoea and the Response to Bromocriptine Therapy

The Effect of Naloxone on Pulsatile Gonadotrophin Release in Normal Subjects

Opiate Mediation of Amenorrhoea in Hyperprolactinaemia and in Weight‐loss Related Amenorrhoea

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