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Male marmoset monkeys which had received gonadotrophin-releasing hormone (GnRH) antagonist treatment as neonates to block the postnatal increase in testosterone were studied, with the object of determining potential long-term effects of treatment on the reproductive system, including tests of fertilising capacity. To obtain information on the nature of the circulating testosterone during this neonatal period, sequential blood samples were collected from a further control group of ten neonates, aged between birth and 3 months, and from 11 adult, normally fertile males, to examine the relative proportions of free, sex-hormone-binding globulin (SHBG)-bound, and non-SHBG-bound testosterone. In control neonates, 11% of the circulating testosterone was free, and a further 19% non-SHBG-bound, and therefore presumed to be biologically available. The remaining 70% was SHBG-bound and considered to be biologically inert. This indicates that the neonatal increase in marmoset testosterone has a biological function. After pairing with females, time to first positive vaginal lavage and first delivery was similar for females, whether they were with control or treated male partners. Pregnancy outcome, in terms of number of young delivered and sex ratio, did not differ. This indicates that there appear to be no long-term sequelae in terms of procreative ability in male marmosets treated neonatally with a GnRH antagonist. Autopsy revealed no gross changes, except in the thymus, which was significantly heavier in the treated group. These results indicate that, although the circulating testosterone is in a biologically active form during the neonatal period, inhibition of testicular function in the neonate is without major effect on the adult male reproductive system. Treatment with a GnRH antagonist may have long-term effects on the immune system.
Journal of Endocrinology (1997) 154, 125–131
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