M. Schöneshöfer scite author profile

The effect of incremental infusions of isoleucine-5-angiotensin II on blood pressure and plasma aldosterone concentrations was studied in normal man before and after 66 hours of intravenous infusion of angiotensin II at 2 ng kg-1 min-1, sodium and potassium balance being kept roughly constant throughout. Plasma sodium and ACTH concentrations were unaltered, but plasma potassium and magnesium levels and basal plasma cortisol fell slightly after prolonged angiotensin administration. During the prolonged angiotensin infusion plasma renin activity was suppressed, and there was a sustained elevation of arterial pressure and plasma aldosterone concentration. Aldosterone excretion, while clearly increased, showed a regular circadian rhythm, with peak values in the early morning. The angiotensin II-pressor relationship was not significantly changed after the prolonged infusion of angiotensin II, while the angiotensin II-aldosterone dose-response curve was steeper than in the basal state but not identical with that of sodium depletion. No differences were observed in the pressor or aldosterone-stimulant effects of the isoleucine-5 and valine-5 forms of angiotensin II. A trophic effect of angiotensin II on the adrenal cortex may provide a partial explanation for the enhanced response of aldosterone to angiotensin II in sodium depleted man.

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Human kidney 11β-hydroxysteroid dehydrogenase: regulation by adrenocorticotropin?

Diederich

Quinkler

Miller

et al. 1996

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In ectopic adrenocorticotropin (ACTH) syndrome (EAS) with higher ACTH levels than in pituitary Cushing's syndrome and during ACTH infusion, the ratio of cortisol to cortisone in plasma and urine is increased, suggesting inhibition of renal 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) by ACTH or by ACTH-dependent steroids. Measuring the conversion of cortisol to cortisone by human kidney slices under different conditions, we tested the possibility of 11 beta-HSD regulation by ACTH and corticosteroids. Slices prepared from unaffected parts of kidneys removed because of renal cell carcinoma were incubated with unlabeled or labeled cortisol, and cortisol and cortisone were quantitated after HPLC separation by UV or radioactive detection. The 11 beta HSD activity was not influenced by incubation with increasing concentrations (10(-12)-10(-9) mol/l) of ACTH (1-24 or 1-39) for 1 h. Among 12 ACTH-dependent steroids tested (10(-9)-10(-6) mol/l), only corticosterone (IC50 = 2 x 10(-7) mol/l), 18-OH-corticosterone and 11 beta-OH-androstenedione showed a significant dose-dependent inhibition of 11 beta-HSD activity. The percentage conversion rate of cortisol to cortisone was concentration dependent over the whole range of cortisol concentrations tested (10(-8) - 10(-5) mol/l. A direct inhibitory effect of ACTH on 11 beta-HSD is, therefore, unlikely. The only steroids inhibiting the conversion of cortisol to cortisone are natural substrates for 11 beta-HSD. Kinetic studies show a saturation of the enzyme at high cortisol concentrations. Thus, the reduced percentage renal cortisol inactivation in EAS seems to be due mainly to overload of the enzyme with endogenous substrates (cortisol, corticosterone and others) rather than to direct inhibition of 11 beta-HSD by ACTH or ACTH-dependent steroids, not being substrates of 11 beta-HSD.

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Administration of glycyrrhetinic acid: significant correlation between serum levels and the cortisol/cortisone-ratio in serum and urine

Heilmann

Hundertmark²,

Schöneshöfer³

2009

Exp Clin Endocrinol Diabetes

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In vitro, cortisol and aldosterone have a similar affinity to the mineralocorticoid receptor. The 11beta-hydroxysteroid dehydrogenase catalyzes the interconversion of cortisol to its inactive 11-oxo-metabolite cortisone. This interconversion is responsible for the in vivo specificity of the mineralocorticoid receptor. A defect of this enzyme leads to a pseudohyperaldosteronism with hypertension and hypokalemia, the so-called apparent mineralocorticoid excess syndrome. Glycyrrhetinic acid, a compound of licorice, also leads to pseudohyperaldosteronism by an inhibition of the 11beta-hydroxysteroid dehydrogenase. We studied the pharmacokinetics of glycyrrhetinic acid and its effect on the 11beta-hydroxysteroid dehydrogenase. Ten healthy students, aged 24 to 38 years, were included in the study. On the first day 500 mg glycyrrhetinic acid were given orally at 08.00 h. Blood and urine samples were taken prior to and 2, 4, 7, 10 and 24 hours after ingestion of glycyrrhetinic acid. We measured the serum level of cortisol, cortisone and glycyrrhetinic acid and the urinary excretion rates of cortisol, cortisone and their 20-dihydrometabolites. For determination of glycyrrhetinic acid and steroid levels we used a fully automated liquid chromatographic analyzer which allows the highly specific and simultaneous determination of steroid profiles even in the matrix of urine. Ratios of the 11-hydroxy- and 11-oxo-metabolites were calculated and correlated to the serum level of glycyrrhetinic acid. We found a significant correlation of the steroid-ratios to the serum levels of glycyrrhetinic acid. Coefficients of correlation were 0.9873, 0.7812, 0.7396 and 0.5844 between the serum level of glycyrrhetinic acid and the cortisol/cortisone-ratio in serum (p < 0.0001), the cortisol/cortisone-ratio in urine (p = 0.0279), the 20alpha-dihydrocortisol/20alpha-dihydrocortisone-ratio in urine (p = 0.0119) and the 20beta-dihydrocortisol/20beta-dihydrocortisone-ratio in urine (p = 0.0419), respectively. We conclude that the ratios of cortisol to cortisone and of the 20-dihydrometabolites of cortisol to the 20-dihydrometabolites of cortisone provide a simple noninvasive tool for monitoring the in-vivo activity of the 11beta-hydroxysteroid dehydrogenase.

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