An Aryl Hydrocarbon Receptor Independent Mechanism of JP-8 Jet Fuel Immunotoxicity in Ah-Responsive and Ah-Nonresponsive Mice

doi:10.1093/toxsci/59.2.251

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Toxicological Sciences 59, 251-259 (2001)
Copyright © 2001 by the Society of Toxicology

IMMUNOTOXICOLOGY

An Aryl Hydrocarbon Receptor Independent Mechanism of JP-8 Jet Fuel Immunotoxicity in Ah-Responsive and Ah-Nonresponsive Mice

Andrew C. Dudley^*, Margie M. Peden-Adams, Jackie EuDaly, Richard S. Pollenz^§ and Deborah E. Keil^,1

¹ Departments of Environmental Studies, Medicine, Medical Laboratory Science, and ^§ Biochemistry and Molecular Biology, The Medical University of South Carolina, Charleston, South Carolina

JP-8 jet fuel is handled extensively by personnel in the militaryand commercial airlines, despite the paucity of informationregarding its potential human health effects. JP-8 is a complexmixture primarily consisting of kerosene plus aliphatic andaromatic hydrocarbons. Recent reports indicate that acute JP-8exposure via inhalation or dermal routes can overtly and persistentlyimpair immune function in mice. Data from preliminary studiesin this laboratory assessing the immunotoxicity of JP-8 indicatedthat oral JP-8 exposure caused an increase in liver weight,a decrease in thymus weight, and a decrease in the PFC response.As these results were similar to classic effects elicited byTCDD, a strong AhR ligand, it was hypothesized that JP-8 mayexert immunosuppression via a similar mechanism. To test thishypothesis, an Ah-responsive mouse strain (B6C3F1) and a classicallynon-responsive mouse strain (DBA/2) bearing a lower affinityAhR were gavaged with JP-8 for 7 days. The results suggest thatboth mouse strains were equally sensitive to JP-8's toxicityat several endpoints including thymus weight and cellularity,liver weight, and specific IgM antibody responses. Furthermore,JP-8 did not induce CYP1A1 or promote down regulation of theAhR when evaluated by Western blot in either B6C3F1 or DBA/2mice. In vitro studies corroborated these findings as JP-8 didnot induce CYP1A1, promote down regulation of the AhR, or activatean XRE-driven reporter gene in murine Hepa-1 cells. These resultssuggest that JP-8 may exert its toxicity via an AhR-independentmechanism.

Key Words: JP-8 jet fuel; immunotoxicity; aryl hydrocarbon receptor; CYP1A1/2; DBA/2 and B6C3F1 mice..

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