Allgrove syndrome (isolated glucocorticoid deficiency, achalasia and alacrima) was found in eight members of an inbred French Canadian/North American Indian pedigree. The high degree of consanguinity supports an autosomal recessive mode of inheritance for this disorder. Six patients presented with hypoglycaemia and other evidence of cortisol deficiency between 2.5 and 8 years of age; however, two others became cortisol deficient after initial testing showed normal cortisol responses to ACTH, evidence that the glucocorticoid insufficiency of this syndrome may not be congenital, but may develop as late as the third decade. No evidence of mineralocorticoid deficiency has been found during 65 patient-years of follow-up. Alacrima was the earliest and most consistent clinical sign of Allgrove syndrome. Other manifestations of peripheral or autonomic neuropathy were found in four patients. The patients showed similar facial features, and three had significant velo-pharyngeal incompetence. All showed oesophageal dysmotility even in the absence of symptomatic dysphagia. In-vitro studies of lymphocyte ACTH binding showed no differences from normal controls. If such lymphocyte binding, as has been suggested, reflects adrenal ACTH receptor activity, these data would suggest that the glucocorticoid deficiency of Allgrove syndrome is not the result of a defect in that receptor. However, the observation that ACTH does not elicit increased adenylate cyclase activity even in normal lymphocytes casts considerable doubt on the physiological significance of ACTH binding to lymphocytes. It seems likely, therefore, that true ACTH receptors are not expressed on peripheral lymphocytes, and any conclusions regarding a possible receptor defect in Allgrove syndrome must await studies of receptor expression on adrenal cell membranes.
Studies using cultured bovine adrenocortical cells now demonstrate that the cytokines interleukin-1 (IL-1) alpha and beta, contrary to previous reports, can stimulate cortisol secretion in vitro in a dose- and time-dependent fashion. However detectable levels of IL-1 receptor could not be demonstrated in adrenal cortical, medullary, or capsular cells by membrane displacement of iodinated IL-1 alpha by unlabeled IL-1 beta, a technique that readily demonstrates specific IL-1 alpha-binding sites on 3T3 fibroblasts. The stimulatory effect of IL-1 on cortisol secretion could be totally blocked by indomethacin, an indication that this effect might be mediated indirectly via local release of prostaglandins (PGs). Subsequent investigations have confirmed that IL-1 does enhance the conversion of [3H]arachidonate to PGs by cultured adrenal cells, and that some of these PGs (PGD2, PGF2 alpha, and PGE2), in turn, can stimulate cortisol production. Taken together these observations suggest that IL-1-induced stimulation of cortisol secretion is mediated through local release of PGs by a small subpopulation of cells within the adrenal gland.
The inhibitory effects of varying concentrations of steroids upon 3 beta-hydroxysteroid dehydrogenase/delta 5-delta 4 isomerase (3 beta-HSD) kinetics were studied in human adrenal microsomes. Each enzyme assay was conducted in triplicate at five different concentrations of three substrates (dehydroepiandrosterone, pregnenolone, and 17OH-pregnenolone), using microsomes from at least three donors. Each steroid was screened for possible inhibition at concentrations of 10(-8) and 10(-6) M and then studied in more detail at five different concentrations. The type of inhibition and the inhibition constant (Ki) were determined by analysis of Lineweaver-Burk and Dixon plots, together with replots of the slopes from the Dixon plots. The mean Km (Michaelis-Menten constant) for the three substrates was 0.42 +/- 0.04 (SE) mumol/liter (n = 73). Each steroid tested, including delta 5-3 beta-hydroxysteroids, estrogens, and several delta 4-3-ketosteroids, with the exception of cortisol, caused significant inhibition of 3 beta-HSD activity, and in each case the steroid appeared to behave as a competitive inhibitor. In most cases the Ki value was approximately 10(-7) M. At micromolar concentrations several steroids, notably estrone and estradiol, caused almost total inhibition of adrenal 3 beta-HSD activity. Comparison of the calculated Ki values with available data concerning changes in intra-adrenal steroid concentrations during childhood suggests that these changes would be sufficient to cause a relative decline in 3 beta-HSD activity during adrenarche. Although postnatal circulating steroid concentrations would appear to be insufficient to influence adrenal steroidogenesis, the high serum levels of placental steroids during fetal life would be expected to cause marked 3 beta-HSD inhibition.
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