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DR Mann
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MA Akinbami
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KG Gould
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K Paul
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K Wallen
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In a 5-year longitudinal study, we examined the effect of disrupting the neonatal activity of the pituitary-testicular axis on the sexual development of male rhesus monkeys. Animals in a social group under natural lighting conditions were treated with a GnRH antagonist (antide), antide and androgen, or both vehicles, from birth until 4 months of age. In antide-treated neonates, serum LH and testosterone were near or below the limits of detection throughout the neonatal period. Antide + androgen-treated neonates had subnormal serum LH, but above normal testosterone concentrations during the treatment period. From 6 to 36 months of age, serum LH and testosterone were near or below the limits of detection. Ten of 12 control animals reached puberty during the breeding season of their 4th year, compared with five of 10 antide- and three of eight antide + androgen-treated animals. Although matriline rank was balanced across treatment groups at birth, a disruption within the social group during year 2 resulted in a marginally lower social ranking of the two treated groups compared with the controls. More high (78%) than low (22%) ranking animals reached puberty during year 4. During the breeding season of that year, serum LH, testosterone and testicular volume were positively correlated with social rank. Thus the lower social rank of treated animals may have contributed to the subnormal numbers of these animals reaching puberty during year 4. However, of those animals achieving puberty during year 4, the pattern of peripubertal changes in serum testosterone and testicular volume differed between control and antide-treated animals. The results appear to suggest that the disruption of normal activity of the neonatal pituitary--testicular axis retarded sexual development, but that social rank is a key regulatory factor in setting the timing of sexual maturation in male rhesus monkeys. The effect of neonatal treatment with antide and low social rank on sexual development could not be reversed by neonatal exposure to greater than normal concentrations of androgen.

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W. D. JOSLYN
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K. WALLEN
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R. W. GOY
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SUMMARY

A single subcutaneous injection of progesterone (0·4 mg) was given to intact female guinea-pigs on either day 1, 7, 12, 13, 14, 15, or 16 of the behavioural oestrous cycle (day of oestrus is day 0). Injections given on either day 1 or day 7 had little effect, although there was a suggestion that injection on day 7 produced a lengthening of the cycle. Animals injected on either day 12 or day 13 underwent cycles of 16·9 and 18·1 days average length, respectively, which were significantly longer than the mean of 15·8 days for uninjected control females.

Injection of progesterone on days 14, 15, or 16 was associated with one of three distinct sequelae: (1) simple prolongation of the cycle associated with a return to spontaneous oestrus 4–7 days later; (2) advancement of ovulation, formation of abnormal corpora lutea, and return to spontaneous oestrus 9–13 days later, and (3) return to spontaneous oestrus 14–16 days after the progesterone injection. These findings suggest that progesterone can cause the release of ovulatory amounts of gonadotrophin following a period of endogenous oestrogen conditioning of the gonadotrophic system. If progesterone is administered before oestrogen conditioning is complete, then it inhibits or delays the conditioning process, and spontaneous oestrus and ovulation are postponed.

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LD Wallen
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W Myint
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K Nygard
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S Shimasaki
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DR Clemmons
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VK Han
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A role for IGF binding proteins (IGFBPs) in lung development is suggested by the identification of IGFBPs in lung tissue and production of IGFBPs by fetal lung cells in culture. To characterize the expression of IGFBPs during lung development in the rat in vivo (16 days gestation through adulthood), the expression of IGFBP mRNAs (IGFBP-1 to IGFBP-6) was examined by Northern analysis and in situ hybridization, and IGFBP peptides (IGFBP-2, IGFBP-3, and IGFBP-5) were localized by immunohistochemistry. IGFBP-1 mRNA was not detectable. IGFBP-2 mRNA (1.8 kb) was expressed in both fetal and postnatal life with peak expression during the fetal pseudoglandular stage. IGFBP-2 mRNA was localized mainly to airway epithelium. IGFBP-3 mRNA (2.4 kb) was maximally expressed postnatally in the saccular stage of lung development; it was identified in airway epithelium and interstitium in the fetal lung, but predominantly in airway epithelium after birth. IGFBP-4 (2.6 kb) and IGFBP-5 (6.0 kb) mRNA levels were maximal after birth, from 3 to 21 days postnatal (saccular and alveolar stage). IGFBP-4 mRNA was localized primarily to the interstitium and blood vessels early in development, but was abundant in airway epithelium in the adult. IGFBP-5 mRNA was most abundant in the airway epithelium. IGFBP-3, IGFBP-4, IGFBP-5, and to a lesser extent IGFBP-6 were localized to the large cartilaginous airways in the adult. IGFBP-2, IGFBP-3, and IGFBP-5 peptides were distributed more widely than their respective mRNAs, with a temporal pattern of immunoreactivity following that of their mRNAs. Maximal staining was noted in airway epithelium for IGFBP-2 in the newborn, for IGFBP-3 in the saccular stage (newborn to 3 days postnatal), and for IGFBP-5 in the alveolar stage (5 to 21 days postnatal). Our studies demonstrate that IGFBP-2, IGFBP-3, IGFBP-4, and IGFBP-5 are synthesized and distributed in spatially and temporally different patterns in the developing lung. The widespread distribution of IGFBP immunoreactivity compared with their respective mRNAs suggests that IGFBPs are important paracrine factors in the regulation of IGF action in the developing lung.

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