Combined pituitary hormone deficiency (CPHD) is characterized by impaired production of GH and one or more of the other anterior pituitary hormones. Prophet of Pit-1 (PROP-1), one of the pituitary specific homeodomain transcription factors, is involved in the differentiation of the anterior pituitary cells (somatotrophs, lactotrophs, thyrotrophs, and gonadotrophs), and PROP-1 gene mutations may interfere with the development of these cells, resulting in CPHD. We performed molecular analyses of the PROP-1 gene in two siblings, born to consanguineous parents, who presented with short stature. The index patient, a boy, was initially diagnosed with constitutional growth delay based on familial short stature, low parental target height, normal GH secretion, and imaging of the pituitary gland. On follow-up, auxological data and pubertal delay prompted a thorough reevaluation, which documented GH, TSH, and gonadotropin deficiencies. Direct sequencing of the PROP-1 gene revealed a novel homozygous transition 296G-->A in exon 2 in the two affected siblings. The mutation substitutes a highly conserved arginine by a glutamine at codon 99 (R99Q) in the second helix of the DNA-binding domain of the PROP-1 protein. Compared with wild-type PROP-1, R99Q displays a significant decrease in DNA binding on a paired box response element (PRDQ9) and trans-activation of a luciferase reporter gene. The findings emphasize the importance of repeated evaluations and illustrate that patients with CPHD associated with PROP-1 mutations present with a phenotypic spectrum, suggesting that the consequences of distinct PROP-1 mutations may be diverse and/or that additional factors, such as modifier genes, may have an impact on their expressivity.
An abnormal CBG resulting from a missense mutation and known as CBG Lyon was found in this Brazilian kindred. This abnormal CBG has decreased affinity for cortisol and results in low or low normal serum cortisol levels in homozygous and heterozygous subjects. Although relative hypotension and fatigue have recently been associated with CBG deficiency in a family with two CBG mutations (null and Lyon), the two homozygous subjects in this kindred were both normotensive and only the proband presented with fatigue.
GH releasing peptide (GHRP-6) is a synthetic hexapeptide with potent GH releasing activity both in man and in animals. This peptide is also able to stimulate ACTH and cortisol (F) release. It has been suggested that the ACTH responsiveness to GHRP-6 is modulated by circulating glucocorticoid levels. To further clarify this hypothesis, we studied the effect of GHRP-6 (1 ug/kg, iv) on ACTH and F release in patients with Addison's disease (no.=6) during replacement therapy and after 72 h of glucocorticoid withdrawal. Seven controls were also submitted to a single GHRP-6 test. In control subjects, ACTH values (pmol/l; mean +/- SE) increased from 2.9 +/- 0.8 to 4.7 +/- 1.4 (peak). AUC (pmol.min/l) values were 170.3 +/- 48.8. F (nmol/l) values increased from 257.0 +/- 42.9 to 367.0 +/- 50.8. In patients with Addison's disease there was an increase in ACTH levels from 38.1 +/- 17.1 to 174.9 +/- 79.4 after GHRP-6 administration. AUC values were 5490.4 +/- 2269.1. After 72 h withdrawal of glucocorticoid, there was an increase in basal ACTH values (191.2 +/- 97.3), and a trend toward an increase in ACTH levels after GHRP-6 (p=0.053). Patients with Addison's disease on therapy showed a significantly higher ACTH response to GHRP-6 when compared to controls. Our results show that in patients with Addison's disease on replacement there is an increased ACTH release after GHRP-6 administration, compared to controls. After 72 h glucocorticoid withdrawal, this enhanced responsiveness is not maintained. Our data suggest that circulating glucocorticoids modulate GHRP-6-induced ACTH release and that multiple mechanisms may be involved in this process.
There are no data in the literature about the effects of glucocorticoid deprivation on GH-releasing peptide-6 (GHRP-6)-induced GH release. The aims of this study were to evaluate GH responsiveness to GHRP-6 1) after metyrapone administration in normal men, and 2) in patients with chronic hypocortisolism after glucocorticoid withdrawal for 72 h. In normal subjects, metyrapone ingestion did not alter significantly GH responsiveness to GHRP-6 [n = 8; peak, 39.3 +/-7.1 microg/L; area under the curve (AUC), 1958.8 +/- 445.7 microg/min x L; mean +/- SE] compared to placebo (n = 8; peak, 21.9 +/- 4.5; AUC, 1131.0 +/- 229.6). In patients with chronic hypocortisolism (n = 8), GH responses to GHRP-6 were similar both during replacement therapy (peak, 11.8 +/- 3.9; AUC, 563.2 +/- 208.7) and after withdrawal of prednisone (peak, 14.4 +/- 4.5; AUC, 695.6 +/- 272.9) and did not differ from those in controls. Interestingly, after glucocorticoid withdrawal, GH responsiveness to GHRP-6 in patients with chronic hypocortisolism was significantly lower than that in normal subjects pretreated with metyrapone. Our data suggest that short term glucocorticoid deprivation does not have a major impact on GHRP-6-dependent GH-releasing mechanisms. However, in long standing hypocortisolism, subtle changes in GHRP-6 secretory pathways may be present.
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