Excessive glucocorticoid concentrations are well recognized inhibitors of linear growth, due in part to their suppression of GH secretion. The mechanism of this inhibition has been unclear, especially since glucocorticoids enhance the in vitro GH response of pituitary cells to GH-releasing hormone (GHRH). We investigated the possibility that hypothalamic somatostatin might be mediating these dichotomous observations by using passive immunization techniques. The GH response to GHRH was significantly blunted in rats pretreated with the synthetic glucocorticoid, dexamethasone, compared to that in normal animals. In marked contrast, the immunoneutralization of somatostatin resulted in a significantly enhanced GH response to GHRH in dexamethasone-treated animals. These results suggest that the previously described inhibitory action of glucocorticoids on GH secretion in vivo are mediated via altered hypothalamic somatostatin tone.
Obesity blunts catecholamine and growth hormone (GH) responses to exercise in adults, but the effect of obesity on these exercise-associated hormonal responses in children is unclear. Therefore, the aim of the present study was to asses the effect of childhood obesity on the counterregulatory hormonal response to acute exercise. Twenty-five obese children (Ob; body mass index > 95%), and 25 age, gender, and maturity-matched normal-weight controls (NW) participated in the study. Exercise consisted of ten 2-min bouts of constant-cycle ergometry above the anaerobic threshold, with 1-min rest intervals between each bout. Pre-, post-, and 120-min postexercise blood samples were collected for circulating components of the GH-IGF-I axis and catecholamines. There were no differences in peak exercise heart rate, serum lactate, and peak O2 uptake normalized to lean body mass between the groups. Obesity attenuated the GH response to exercise (8.9 +/- 1.1 vs. 3.4 +/- 0.7 ng/ml in NW and Ob participants, respectively; P < 0.02). No significant differences in the response to exercise were found for other components of the GH-IGF-I axis. Obesity attenuated the catecholamine response to exercise (epinephrine: 52.5 +/- 12.7 vs. 18.7 +/- 3.7 pg/ml, P < 0.02; norepinephrine: 479.5 +/- 109.9 vs. 218.0 +/- 26.0 pg/ml, P < 0.04; dopamine: 17.2 +/- 2.9 vs. 3.5 +/- 1.9 pg/ml, P < 0.006 in NW and Ob, respectively). Insulin levels were significantly higher in the obese children and dropped significantly after exercise in both groups. Despite the elevated insulin levels and the blunted counterregulatory response, none of the participants developed hypoglycemia. Childhood obesity was associated with attenuated GH and catecholamine response to acute exercise. These abnormalities were compensated for, so that exercise was not associated with hypoglycemia, despite increased insulin levels in obese children.
We have studied two unrelated genetic males with a novel constellation of genital, cardiac, and pulmonary malformations. The genital abnormalities consisted of a true double vagina, retention of Müllerian structures, and undervirilization of the external genitalia. Both infants had complex cyanotic congenital heart defects, hypoplastic right lungs, anomalous pulmonary venous return, and abnormalities of the diaphragm. One patient had rhabdomyomatous dysplasia of the lungs. The cause of this malformation pattern is unknown. There was no family history of similar defects, no consanguinity, no known exposure to teratogens, and no chromosome abnormality. The retention of Müllerian structures and undervirilization of male genitalia in these cases could be the result of failure in production of adequate amounts of testosterone and Müllerian inhibitory factor at appropriate times in gestation. Because the developing human vagina is at no stage a duplicate structure, a double vagina cannot be the result of arrested genital differentiation. The unusual occurrence of a true double vagina should lead to careful pulmonary and cardiac evaluation.
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