The Effects of Perinatal Tebuconazole Exposure on Adult Neurological, Immunological, and Reproductive Function in Rats

doi:10.1093/toxsci/62.2.339

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Toxicological Sciences 62, 339-352 (2001)
Copyright © 2001 by the Society of Toxicology

SAFETY EVALUATION

The Effects of Perinatal Tebuconazole Exposure on Adult Neurological, Immunological, and Reproductive Function in Rats

V. C. Moser^*^,1, S. Barone, Jr.^*, R. J. Smialowicz, M. W. Harris, B. J. Davis, D. Overstreet, M. Mauney and R. E. Chapin^,2

^* Neurotoxicology Division and Environmental Toxicology Division, National Health and Environmental Effects Research Laboratory, U.S. Environmental Protection Agency, Research Triangle Park, North Carolina 27711; Reproductive Toxicology Group, National Toxicology Program, National Institute of Environmental Health Sciences, Research Triangle Park, North Carolina; and ASI, Inc., Durham, North Carolina

Studies are under way to address concerns of potential persistentimmunotoxic, reproductive, and neurotoxic effects of perinatalexposure to several pesticides. Tebuconazole, a triazole fungicide,was evaluated as part of this project. Sprague-Dawley dams wereadministered tebuconazole (0, 6, 20, or 60 mg/kg) by oral gavagedaily from gestational day 14 to postnatal day (PND)7; the pupswere then dosed daily at the same levels from PND7–42.Separate groups of rats were used for testing of immunologicalparameters, neurobehavioral testing using a screening batteryof functional tests, and cognitive evaluations. Other groupsof rats were evaluated for reproductive development and function,while yet others were sacrificed at the end of the dosing periodfor histological analyses of major organs systems, includingneuropathological assessments. Pup viability and body weightwere decreased in the highest dose group. There were no differencesin the fertility indices in the exposed rats mated as adults.In the sheep RBC-immunized high-dose rats, spleen weights andcellularity were increased, and the ratio of cell types wasaltered compared to controls. There were, however, no biologicallysignificant changes in the immune function of these rats. Atnecropsy on PND46 or 152, kidney, liver, and spleen weightswere altered by tebuconazole treatment, but a dose-responserelationship was not clear for most organs; only decreased kidneyand increased liver weights were consistent in both sexes. Histologicalanalyses were generally unremarkable outside of the brain. Onemonth after the end of dosing, acquisition of learning the platformlocation in a water tank (i.e., Morris water maze) was impairedin the high-dose group; there were no differences in neuromuscularability, motor activity, or swim speed to account for this finding.Furthermore, there was no effect on recall of the position duringa free-swim trial. Neuropathological evaluations revealed pyknoticcells across hippocampal cell fields in animals of all tebuconazoletreatment groups, with the highest incidence in the 20 and 60mg/kg/day dose groups, coincident with cell loss within pyramidalcell layer of CA3-4 cell fields of the hippocampus and layerV of the neocortex. Thus, perinatal exposure to tebuconazoleproduced neurobehavioral deficits and neuropathology in rats,but did not alter immunological or reproductive function.

Key Words: tebuconazole; developmental neurotoxicity; immunotoxicity; reproductive toxicity; rats.

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