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MEASUREMENT OF HEMOGLOBIN AND ALBUMIN ADDUCTS OF NAPHTHALENE-1,2-OXIDE, 1,2-NAPHTHOQUINONE AND 1,4-NAPHTHOQUINONE AFTER ADMINISTRATION OF NAPHTHALENE TO F344 RATS
Citation:
Waidyanatha, S., M. A. Troester, A B. Lindstrom, AND S. M. Rappaport. MEASUREMENT OF HEMOGLOBIN AND ALBUMIN ADDUCTS OF NAPHTHALENE-1,2-OXIDE, 1,2-NAPHTHOQUINONE AND 1,4-NAPHTHOQUINONE AFTER ADMINISTRATION OF NAPHTHALENE TO F344 RATS. CHEMICO-BIOLOGICAL INTERACTIONS 141(3):189-210, (2002).
Impact/Purpose:
The objective of this task is to develop state-of-the-art methods for measuring xenobiotic compounds, to include the isolation of the analyte from the appropriate matrix (extraction), preconcentration (typically sorbent-based), and analysis via GC/MS and/or LC/MS. Once established, these methods will be applied in small scale pilot studies or demonstration projects. Particular emphasis will be placed on methods which are readily transferable to other laboratories, including those within the Human Exposure and Atmospheric Sciences Division (HEASD), the National Exposure Research Laboratory (NERL), other EPA Laboratories, Program Offices, Regions, and academic institutions.
Specific objectives of this task include the following:
1) Development of GC/MS and LC/MS methods for the measurement of key xenobiotic compounds and their metabolites (to include the pyrethroid pesticides, perfluorinated organic compounds, and the BFRs) in relevant environmental and biological matrices.
2) Development of efficient low cost methods for the extraction and clean up of these compounds collected from relevant matrices.
3) Determination of xenobiotic compound and metabolite concentrations in samples derived from laboratory and field monitoring studies to help assess exposures and evaluate associated risks.
Description:
Naphthalene-1,2-oxide (NPO), 1,2-naphthoquinone (1,2-NPQ) and 1,4-naphthoquinone (1,4-NPQ) are the major metabolites of naphthalene that are thought to be responsible for the cytotoxicity and genotoxicity of this chemical. We measured cysteinyl adducts of these metabolites in hemoglobin (Hb) and albumin (Alb) from F344 rats dosed with 100-800 mg naphthalene/kg body weight. The method employs cleavage and derivatization of these adducts by trifluoroacetic anhydride and methanesulfonic acid followed by gas chromatography-mass spectrometry in negative ion chemical ionization mode. Cysteinyl adducts of both proteins with NPO, and 1,2- & 1,4-NPQ (designated NPO-Hb & -Alb, 1,2-NPQ-Hb & -Alb, and 1,4-NPQ-Hb & -Alb, respectively) were produced in a dose-dependent manner. Of the two structural isomers resulting from NPO, levels of NPO1 adducts were greater than those of NPO2 adducts in both Hb and Alb, indicating that aromatic substitution is favored in vivo at position 1 over position 2. Of the quinone adducts, 1,2-NPQ-Hb & -Alb were produced in greater quantities than 1,4-NPQ-Hb & -Alb, indicating either that the formation of 1,2-NPQ from NPO is favored or that more than one pathway leads to the formation of 1,2-NPQ. The shapes of the dose-response curves were generally nonlinear at doses above 200 mg naphthalene/kg body weight. However, the nature of nonlinearity differed, showing evidence of supralinearity for NPO-Hb, NPQ-Hb and NPQ-Alb and of sublinearity for NPO-Alb. Low background levels of 1,2-NPQ-Hb & -Alb and 1,4-NPQ-Hb & -Alb were detected in control animals without known exposure to naphthalene. However, the corresponding NPO-Hb & -Alb adducts were not detected in control animals.
This work was supported in part by the National Institute of Environmental Health Sciences through grants P42ES05948, P30ES10126, and T32ES07018. The research described in this document was also supported in part by the U.S. Environmental Protection Agency. It has been subjected to Agency review and approved for publication.