Relative potency of albendazole and its sulfoxide metabolite in two in vitro tests for developmental toxicity: The rat whole embryo culture and the mouse embryonic stem cell test

Eckardt,K.; Kaltenhäuser,J.; Kilb,C.; Seiler,A.; Stahlmann,R.

Relative potency of albendazole and its sulfoxide metabolite in two in vitro tests for developmental toxicity: The rat whole embryo culture and the mouse embryonic stem cell test

2012

Eckardt,K. | Kaltenhäuser,J. | Kilb,C. | Seiler,A. | Stahlmann,R.

The benzimidazole carbamate albendazole (ABZ), a potent anthelmintic, is a teratogenic compound in rats. At present it is unclear to which degree this effect is caused by the parent compound or its major metabolite, albendazole sulfoxide (ASO). Both substances were studied separately and in combinations to mimic incomplete bioactivation in two in vitro tests: mouse embryonic stem cell test (EST) and rat whole embryo culture (WEC). In both assays, ABZ and mixtures with ASO induced detrimental effects at lower concentrations compared to ASO alone. While ABZ caused half-maximal effects on cardiomyocyte differentiation at a mean concentration of 0.26 ++M (EST) and dysmorphogenic development of rat embryos at 3.7 ++M (WEC), effective concentrations of ASO were similar in both assays (10-13 ++M). By using WEC and EST we demonstrate that ABZ exhibits stronger inherent embryotoxic potency although ASO might be the proximate teratogen in vivo because of higher plasma concentrations.

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AGROVOC Keywords

agents albendazole analysis animal animals antiparasitic agents assessment behaviour berlin biology cancer cell differentiation cells concentration congresses cultivation design development dogs domestic animals drug resistance effects embryo culture experiments fibroblasts food food additives germany growth in vitro metabolites methods mice mode of action model molecular biology parasitology patient pharmacokinetics pharmacology protein rat rats rats rattus research residues risk risk assessment science software substances system technique teratogenicity tests toxicity toxicity tests toxicology who

Bibliographic information

Published in

Reproductive toxicology | Reprod Toxicol | Reprod Tox

Volume 34 Issue 3 Pagination 378 - 384

Publisher Elsevier

ISSN 0890-6238

Other Subjects

Vivo; Nonhuman; Embryotoxicity; In-vitro; Reproductive toxicology; Cultures; Whole embryo culture; Cell viability; Drug response; Discovery; Mixture; In vitro test; Stem cells; Drug activity; In vivo; Wistar; Plasma-concentrations; Sulfoxide; Zebrafish; Embryo; Drug potency; Cardiac; Myocytes; Wistar rats; Embryotoxicity test; Growth factor; International; Embryonic stem cells; Human; Est; Vitro; Potential; Drug; In vitro study; Plasma; Developmental toxicity; Pharmaceutical; Inhibitor; Differentiation; Mechanism; Line; Residue; Culture; Murine; Effect; Risk-assessment; Comparison; No; Mixtures; Ic 50; Symposium; Toxicity testing; Compound; Embryo development; Dog; Studies; Acid; Embryonic stem cell; Female; Comparative; Assay; Embryos; Article; Predict; Cell; Standardization; Growth-factor; Animal cell; In-vivo; In vitro tests; Animal experiments; Resistance; Male; Study; Veterinary; Method; Agent; Combination; Albendazole sulfoxide; Animal experiment; Reference; Heart muscle cell; Cytotoxicity test; Controlled study; Clinical; Animal-experiments; Mouse; Bioassay; Mammalian; Embryo; Cell-line; German; Metabolite; Review; Embryonic stem cell test; Protocol; Cell line

Language

English

Type

Text; Journal Article

In AGRIS since: 2025-02-03

Modification date: 2025-07-17

Format: MODS

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Relative potency of albendazole and its sulfoxide metabolite in two in vitro tests for developmental toxicity: The rat whole embryo culture and the mouse embryonic stem cell test

2012

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