naloxone and testosterone-enanthate

Plasma LH and FSH were measured every 20 min in a group of patients with Klinefelter's syndrome before and after placebo or naloxone administration (8 mg iv as a bolus followed by an infusion of 4 mg/h for 4 h) both in baseline conditions (N = 6) and during treatment with testosterone enanthate (200 mg im every two weeks; N = 4). The mean LH areas measured during saline infusion in baseline conditions (7888 +/- 758 IU/l per min mean +/- SEM) and during testosterone treatment (5042 +/- 2039 IU/l per min) were not significantly different from those measured during naloxone infusion (baseline 8317 +/- 818 IU/l per min; during testosterone treatment 5395 +/- 2007 IU/l per min). Similar results were obtained for FSH. These data suggest that in patients with Klinefelter's syndrome, the opioidergic inhibition of gonadotropin release is lacking and is not restored by testosterone replacement therapy.

Topics: Adult; Clinical Trials as Topic; Follicle Stimulating Hormone; Humans; Infusions, Intravenous; Klinefelter Syndrome; Luteinizing Hormone; Male; Naloxone; Random Allocation; Sodium Chloride; Testosterone

The present study investigated the time of male sexual maturation during which hypothalamic inhibitory opioid activity can be detected. Normal prepubertal (Tanner stage G 1 (Ts-G1) (n = 4], early pubertal (Ts-G2 (n = 5], pubertal (Ts-G3 (n = 4), and Ts-G4 (n = 2] and adult subjects (Ts-G5 (n = 4] receives a rapid infusion of the selective opiate antagonist nalocone (NAL) (20 mg over 10 min). LH secretion was assessed by frequent (every 10 min for 2 h) venous sampling before and after administration of the opiate blocker, as well as by the LH response to exogenous GnRH. All but one (a Ts-G2 subject) pubertal boys showed aprompt and sustained increase in serum LH concentrations after NAL administration, as disclosed by the areas under the LH curve (aLHc) calculated from samples obtained before and after NAL infusion (aLHc in four Ts-G2 responders, 162 +/- 20 (mean +/- SEM) vs 314 +/- 56 mIU/ml/min before and after NAL respectively, P less than 0.025; Ts-G3, 227 +/- 35 vs 362 +/- 56 mIU/ml/min, P less than 0.025; Ts-G4 and Ts-G5, 432 +/- 77 vs 687 +/- 91 mIU/ml/min, P less than 0.05). In contrast, none of the prepubertal children had significant changes in LH secretion after the NAL challenge (154 +/- 17 vs 154 +/- 9 mIU/ml/min). Although all NAL responders exhibited serum testosterone (T) levels above 5 nmol/l, a positive correlation between individual T values and magnitude of LH responses to NAL was not found. All subjects had significant serum LH increments after GnRH administration. In a second series of studies, additional groups of Ts-G1 subjects were primed during 5 days either with GnRH alone or with GnRH plus sex steroids (ethinyl oestradiol 12.5 micrograms/12 h or testosterone enanthate 1.8 mg/kg body weight (single dose], before NAL administration, to investigate whether hypothalamic opioid activity might be unmasked by additional sex steroids. None of the priming schemes significantly modified the pituitary LH responses to NAL infusion (GnRH-primed group, 145 +/- 48 vs 139 +/- 43 mIU/ml/min before and after NAL, respectively; GnRH plus ethinyl oestradiol-primed group, 124 +/- 42 vs 107 +/- 34 mIU/ml/min; GnRH plus testosterone enanthate-primed group, 64 +/- 10 vs 57 +/- 24 mIU/ml/min). This study suggests that the development and/or maturation of the opioid control of LH secretion is temporally related with the onset of puberty.(ABSTRACT TRUNCATED AT 400 WORDS)

Topics: Adolescent; Child; Ethinyl Estradiol; Humans; Luteinizing Hormone; Male; Naloxone; Pituitary Gland; Pituitary Hormone-Releasing Hormones; Sexual Maturation; Testosterone