Toxicological Sciences

ToxSci Advance Access originally published online on April 15, 2003

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Toxicological Sciences 73, 256-269 (2003)
Copyright © 2003 by the Society of Toxicology

BIOTRANSFORMATION AND TOXICOKINETICS

PBPK Predictions of Perchlorate Distribution and Its Effect on Thyroid Uptake of Radioiodide in the Male Rat

Elaine A. Merrill^*,1, Rebecca A. Clewell, Jeffery M. Gearhart, Peter J. Robinson, Teresa R. Sterner^*, Kyung O. Yu, David R. Mattie and Jeffrey W. Fisher^,2

^* Operational Technologies Corporation, Dayton, Ohio 45432; GeoCenters, Inc., Wright-Patterson AFB, Ohio 45433; ManTech Environmental Technology, Inc., Dayton, Ohio 45437; and AFRL/HEST Operational Toxicology Branch, Wright-Patterson AFB, Ohio 45433

Due to perchlorate’s (ClO₄^-) ability to competitively inhibit thyroid iodide (I^-) uptake through the sodium-iodide symporter (NIS), potential human health risks exist from chronic exposure via drinking water. Such risks may include hypothyroidism, goiter, and mental retardation (if exposure occurs during critical periods in neurodevelopment). To aid in predicting perchlorate’s effect on normal I^- kinetics, we developed a physiologically-based pharmacokinetic (PBPK) model for the adult male rat. The model structure describes simultaneous kinetics for both anions together with their interaction at the NIS, in particular, the inhibition of I^- uptake by ClO₄^-. Subcompartments and Michaelis-Menten (M-M) kinetics were used to describe active uptake of both anions in the thyroid, stomach, and skin. Separate compartments for kidney, liver, plasma, and fat were described by passive diffusion. The model successfully predicts both ³⁶ClO₄^- and ¹²⁵I^- kinetics after iv doses of 3.3 mg/kg and 33 mg/kg, respectively, as well as inhibition of thyroid ¹²⁵I^- uptake by ClO₄^- after iv doses of ClO₄^- (0.01 to 3.0 mg/kg). The model also predicts serum and thyroid ClO₄^- concentrations from 14-day drinking water exposures (0.01 to 30.0 mg ClO₄^-/kg/day) and compensation of perchlorate-induced inhibition of radioiodide uptake due to upregulation of the thyroid. The model can be used to extrapolate dose metrics and correlate observed effects in perchlorate toxicity studies to other species and life stages, such as rat gestation (Clewell et al., 2003). Because the model successfully predicts perchlorate’s interaction with iodide, it provides a sound basis for future incorporation of the complex hypothalamic-pituitary-thyroid feedback system.

Key Words: perchlorate; radioiodide; thyroid; inhibition; sodium iodide symporter; PBPK; model.

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This article has been cited by other articles:

				E. D. McLanahan, M. E. Andersen, and J. W. Fisher A Biologically Based Dose-Response Model for Dietary Iodide and the Hypothalamic-Pituitary-Thyroid Axis in the Adult Rat: Evaluation of Iodide Deficiency Toxicol. Sci., April 1, 2008; 102(2): 241 - 253. [Abstract] [Full Text] [PDF]

				M. A. Khan, S. E. Fenton, A. E. Swank, S. D. Hester, A. Williams, and D. C. Wolf A Mixture of Ammonium Perchlorate and Sodium Chlorate Enhances Alterations of the Pitutary-Thyroid Axis Caused by the Individual Chemicals in Adult Male F344 Rats Toxicol Pathol, December 1, 2005; 33(7): 776 - 783. [Abstract] [Full Text] [PDF]

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				R. A. Clewell, E. A. Merrill, K. O. Yu, D. A. Mahle, T. R. Sterner, D. R. Mattie, P. J. Robinson, J. W. Fisher, and J. M. Gearhart Predicting Fetal Perchlorate Dose and Inhibition of Iodide Kinetics during Gestation: A Physiologically-Based Pharmacokinetic Analysis of Perchlorate and Iodide Kinetics in the Rat Toxicol. Sci., June 1, 2003; 73(2): 235 - 255. [Abstract] [Full Text] [PDF]

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