Dissociation of the natriuretic and antikaliuretic properties of triamterene derivatives by dose-response experiments

Several derivatives of triamterene were synthesized with the aim of obtaining physicochemical properties superior to those of triamterene. Their effects on electrolyte excretion were tested with dose-response curves in rats: a dissociation of ED50 values of Na+ excretion from those of K+ retention w...

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Bibliographic Details
Published in:Pharmaceutical research 1987-02, Vol.4 (1), p.66-69
Main Authors: PRIEWER, H, WOLF, E, KRAFT, H, KNAUF, H, MUTSCHLER, E
Format: Article
Language:English
Subjects:
Animals
Biological and medical sciences
Dose-Response Relationship, Drug
Male
Medical sciences
Natriuresis - drug effects
Pharmacology. Drug treatments
Potassium - urine
Rats
Rats, Inbred Strains
Triamterene - analogs & derivatives
Triamterene - pharmacology
Urinary system
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Summary:Several derivatives of triamterene were synthesized with the aim of obtaining physicochemical properties superior to those of triamterene. Their effects on electrolyte excretion were tested with dose-response curves in rats: a dissociation of ED50 values of Na+ excretion from those of K+ retention was found; while the ED50 values of natriuresis were structure independent, the ED50 values for potassium retention depended highly on the charge of the side chain of triamterene derivatives. Acidic compounds displayed low and amines high K+-retaining potencies. Hence we postulate that there are at least two sites of action of the tested compounds in the kidney. (i) The first is the Na+ difference; this is the main driving force for K+ secretion. The affinity to the Na+ conductance is not correlated with the basic/acidic properties of the compounds. (ii) The second site is the finite K+ conductance of the luminal membrane of the distal tubule. The affinity of the drugs to this K+ conductance depends strongly on the charge of the molecule. Only pteridine derivatives with a basic side chain, i.e., with a high pKa value, block the membrane K+ conductance and are therefore potent potassium-retaining drugs.
ISSN:0724-8741
1573-904X
DOI:10.1023/A:1016490113355