Background: Glucocorticoids (GCs) are commonly used for long-term medication in immunosuppressive and anti-inflammatory therapy. However, the data describing gluco-and mineralo-corticoid (MC) properties of widely applied synthetic GCs are often based on diverse clinical observations and on a variety of in vitro tests under various conditions, which makes a quantitative comparison questionable. Method: We compared MC and GC properties of different steroids, often used in clinical practice, in the same in vitro test system (luciferase transactivation assay in CV-1 cells transfected with either hMR or hGRa expression vectors) complemented by a system to test the steroid binding affinities at the hMR (protein expression in T7-coupled rabbit reticulocyte lysate). Results and Conclusions: While the potency of a GC is increased by an 11-hydroxy group, both its potency and its selectivity are increased by the D1-dehydro-configuration and a hydrophobic residue in position 16 (16-methylene, 16a-methyl or 16b-methyl group). Almost ideal GCs in terms of missing MC effects, as defined by our in vitro assay, are therefore prednylidene, budesonide, beclomethasone and betamethasone. The MC potency of a steroid is increased by a 9a-or a 6a-fluoro substituent. A hydrophilic substituent in position 16 (like 16-hydroxylation in triamcinolone) decreases both MC and GC properties. As no substituent that leads to an isolated reduction of GC activity could be characterized in our experiments, 9a-fluorocortisol, the most frequently used steroid for MC substitution, seems to be the best choice of available steroids for this purpose.
Tetracosactin [corticotropin-(1-24)] is used for clinical testing of adrenocortical responsiveness. The usual dose [high dose test (HDT)] is 250 micrograms. With this test, patients with mild secondary adrenal insufficiency are usually not identified, thus putting them at risk of an adrenal crisis in stressful situations. It was recently reported that a tetracosactin test with approximately 1 micrograms [low dose test (LDT)] identifies patients with mild forms of pituitary-adrenal insufficiency. We performed both the HDT and the LDT in 35 control subjects and in 44 patients with pituitary disease, mostly pituitary tumors. In these patients, more sensitive reference tests for evaluating the pituitary-adrenal axis (insulin-induced hypoglycemia, metyrapone, and CRH tests) were also performed. In the HDT, plasma cortisol was measured 30 and 60 min after tetracosactin injection; in the LDT (0.5 microgram/m2 body surface area), plasma cortisol was measured 20, 30, 40, 50, and 60 min postinjection. In 6 control subjects, tetracosactin plasma levels were also measured after injection. In the HDT, the correlation between 30 and 60 min cortisol levels was extremely high (r = 0.991; P < 0.0001), but the correlation of the LDT with the HDT at 30 min was also highly significant (r = 0.948; P < 0.0001). The lower normal limit of cortisol responses (means of controls minus 2 SD) at 30 min was lower in the LDT by 3.1 micrograms/dL (85 nmol/L) than in the HDT. Compared with the reference tests, the diagnostic sensitivities of the HDT and the LDT were almost identical. Both tests identified patients with moderately to severely pathological insulin and metyrapone tests, but not those with slightly pathological reference tests. In the HDT, plasma tetracosactin rose to more than 60,000 pg/mL shortly after injection. In the LDT, it rose to 1,900 pg/mL. Both concentrations stimulate cortisol (supra-) maximally. Together, these data show that in pituitary disorders the results of the LDT and the HDT are almost identical. Plasma tetracosactin levels in the LDT still rise to levels that maximally stimulate the adrenal. Tetracosactin testing with low or high doses cannot generally replace the more expensive and cumbersome insulin or metyrapone tests.
Severe hyponatremia occurs in some patients with untreated hypopituitarism, but it is not known whether such hyponatremia is caused by the hypersecretion of vasopressin (antidiuretic hormone). This report describes severe, symptomatic hyponatremia in five women 59 to 83 years old (serum sodium, 111 to 118 mmol per liter) who presented with hypopituitarism (which had been previously undiagnosed in four). Plasma vasopressin was inappropriately high (1.3 to 25.8 pmol per liter [1.4 to 28 ng per liter]) in relation to plasma osmolality (236 to 260 mOsm per kilogram of body weight). All five patients had normal renal function and no signs of dehydration or volume depletion. The hyponatremia was resolved within a few days after the institution of hydrocortisone therapy, after infusion of normotonic or hypertonic saline had been found to be less effective. When four of the patients were later restudied while receiving maintenance hydrocortisone treatment, the relation between plasma vasopressin and osmolality was normal. We conclude that ACTH deficiency may cause the syndrome of inappropriate secretion of antidiuretic hormone. The beneficial effect of hydrocortisone is probably exerted through the suppression of vasopressin secretion.
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