Endocrinology, Vol 112, 1852-1856, Copyright © 1983 by Endocrine Society

ARTICLES

Antinatriuretic and kaliuretic activities of the reduced derivatives of aldosterone

CJ Kenyon, AS Brem, MJ McDermott, GA Deconti, SA Latif and DJ Morris

The mineralocorticoid activities of the two dihydro- and the four tetrahydroisomers of the ring A-reduced derivatives of aldosterone were tested in adrenalectomized male rats. Potency was assessed by three criteria. Overall mineralocorticoid activity is expressed as the ability to reduce the urinary Na+/K+ ratio; antinatriuretic activity is represented by decreases in urinary Na+/creatinine; kaliuretic activity is shown by increases in K+/creatinine. All measurements were made on urine collected in the period 1-3 h postinjection. Measurements of overall activity indicate that the potency of aldosterone is greater than 5 alpha-dihydroaldosterone (DHA) greater than 3 alpha, 5 alpha- tetrahydroaldosterone (THA) greater than 3 alpha, 5 beta-THA greater than 3 beta, 5 alpha-THA greater than 5 beta-DHA greater than 3 beta, 5 beta-THA. Measurements of individual cation effects indicated that reduced derivatives generally, and the 5 alpha-reduced derivatives in particular, have greater antinatriuretic than kaliuretic activity. For example 5 alpha-DHA possesses between 7% and 17% of the antinatriuretic activity of aldosterone but only 0.7-2.7% of the kaliuretic activity. 5 alpha-DHA and 3 alpha, 5 beta-THA at concentrations of 10(-7)M were also shown to have mineralocorticoid activity in the isolated toad bladder; both caused an increase in the short circuit current across this epithelium although not to the level shown by a similar concentration of aldosterone. 5 beta-DHA appeared to be inactive at this dose.