1. Estimation of the Extent of in VivoFormation of a Mutagenic Aromatic Amine from a Potent Thyromimetic Compound: Correlation of in Vitroand in VivoFindings.
- Author
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Kamelia Behnia, Georgia Cornelius, Jian Wang, Petia Shipkova, Susan Johnghar, William Washburn, Robert Brigance, Paul Stetsko, Andrew Henwood, James P. Wojciechowski, Punit Marathe, A. David Rodrigues, and W. Griffith Humphreys
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AROMATIC amines , *BIOACTIVE compounds , *GENETIC toxicology , *METABOLITES , *CARCINOGENICITY , *METABOLISM , *MUTAGENS , *PHARMACOKINETICS - Abstract
The development of compounds with the potential for genotoxicity poses significant safety risks as well as risks of attrition. Although genotoxicity evaluation of the parent molecule is routine and reasonably predictive, assessing the risk of commercialization when release of a genotoxic degradant and/or metabolite from a nongenotoxic parent molecule is suspected is much more challenging and resource intensive. Much of the risk of the formation of a genotoxic degradant/metabolite can be discharged with the conduct of carcinogenicity studies in models where the compound is formed, but this approach requires a great deal of time and resources. In this manuscript, we investigated the contribution of various factors (pH, serum instability, and hepatic metabolism) to the formation of a mutagenic aromatic amine from a potent and highly selective thyromimetic compound ([3-(3,5-dibromo-4-(4-hydroxy-3-isopropyl-5-methylphenoxy)-2-methylphenylamino)-3-oxopropanoic acid], compound 1), under in vitroconditions. The kinetic parameters obtained from in vitroexperiments combined with the pharmacokinetics of 1in vivo(e.g., plasma concentration–time profile and clearance) were used to estimate the extent of in vivoformation of [4-(4-amino-2,6-dibromo-3-methylphenoxy)-2-isopropyl-6-methylphenol] (compound 2), in rats upon administration of a single oral dose of 1. The agreement between the predicted values (1.9% conversion of total administered dose) with the observed levels of 2in rats (0.2%-2.2% of the 10 mg/kg dose, 10 mg/kg) further prompted the utilization of this approach to predict the extent of release of this mutagen in humans upon administration of 1. The projection of 0.13% conversion to 2from an efficacious daily dose of 15 mg of 1translated to the generation of 20 μg of 2and provided the basis for the decision to terminate the development of 1. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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