Genotoxicity testing of potassium canrenoate in cultured rat and human cells

Potassium canrenoate (PC), a competitive aldosterone antagonist used as a diuretic and in the treatment of hypertension, was examined for its capacity to produce genotoxic effects in cultured rat and human cells. At subtoxic concentrations (10–90 μM) PC was found to induce a dose-dependent degree of...

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Bibliographic Details
Published in:Mutagenesis 1999-09, Vol.14 (5), p.463-472
Main Authors: Martelli, Antonietta, Mattioli, Francesca, Carrozzino, Roberto, Ferraris, Eleonora, Marchese, Monica, Angiola, Marianna, Brambilla, Giovanni
Format: Article
Language:English
Subjects:
Adult
Aged
Animals
Biological and medical sciences
Canrenoic Acid - toxicity
canrenone
Cell Survival - drug effects
Cells, Cultured
DNA - biosynthesis
DNA - drug effects
DNA Damage
DNA fragmentation
DNA Fragmentation - drug effects
DNA Repair
Dose-Response Relationship, Drug
Drug toxicity and drugs side effects treatment
Female
Humans
Liver - cytology
Liver - drug effects
Liver - metabolism
Lymphocytes - cytology
Lymphocytes - drug effects
Lymphocytes - metabolism
Male
Medical sciences
Micronucleus Tests
Mineralocorticoid Receptor Antagonists - toxicity
Miscellaneous (drug allergy, mutagens, teratogens...)
Mutagenicity Tests
Pharmacology. Drug treatments
potassium canrenoate
Rats
Rats, Sprague-Dawley
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Summary:Potassium canrenoate (PC), a competitive aldosterone antagonist used as a diuretic and in the treatment of hypertension, was examined for its capacity to produce genotoxic effects in cultured rat and human cells. At subtoxic concentrations (10–90 μM) PC was found to induce a dose-dependent degree of DNA fragmentation, as detected by the Comet assay, and of DNA repair synthesis, as measured by quantitative autoradiography, in primary cultures of hepatocytes from rat and human donors of both genders. In rat hepatocytes both DNA fragmentation and DNA repair were more marked after 3 h than after 20 h exposure and in cultures from females than from males. In human hepatocytes from one male and two female donors, PC caused a similar effect in terms of DNA fragmentation, whereas DNA repair was detected in cultures from only two of the same three donors and was less marked than in rat hepatocytes. A modest but statistically significant increase in micronucleated cells was present in primary cultures of replicating rat hepatocytes exposed to 10 or 30 μM PC for 48 h, the response being, in this case also, more evident in females than in males. In contrast, PC did not induce micronucleus formation in human hepatocytes from two female donors. Any evidence of DNA fragmentation and micronucleus formation was absent in cultured human lymphocytes. Taken as a whole these findings support the hypothesis that hepatocytes activate PC to DNA-damaging reactive species. PC induced the observed genotoxic effects at concentrations close to those produced in humans by the administration of therapeutic doses, but these effects were as a whole more marked in rat than in human hepatocytes. Since PC shares the 17-hydroxy-3-oxopregna-4,6-diene structure with cyproterone acetate, chlormadinone acetate and megestrol acetate, previously found to be genotoxic to both rat and human hepatocytes, the potential carcinogenic hazard of this type of steroids cannot be neglected.
ISSN:0267-8357
1464-3804
1464-3804
DOI:10.1093/mutage/14.5.463