Discriminating Redox Cycling and Arylation Pathways of Reactive Chemical Toxicity in Trout Hepatocytes

doi:10.1093/toxsci/kfg016

ToxSci Advance Access published online on February 18, 2003
Toxicological Sciences, doi:10.1093/toxsci/kfg016
Toxicological Sciences © Society of Toxicology 2003; all rights reserved

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Received October 2, 2002; accepted December 16, 2002
© 2003 Society of Toxicology

Endocrine Toxicology

Discriminating Redox Cycling and Arylation Pathways of Reactive Chemical Toxicity in Trout Hepatocytes

P. K. Schmieder ¹^*, M. A. Tapper ¹, R. C. Kolanczyk ¹, D. E. Hammermeister ¹, B. R. Sheedy ¹, J. S. Denny ¹

¹ U.S. Environmental Protection Agency, National Health and Environmental Effects Laboratory, Mid-Continent Ecology Division, 6201 Congdon Boulevard, Duluth, MN 55804

^* To whom correspondence should be addressed. E-mail: schmieder.patricia{at}epa.gov.

Abstract

The toxicity of four quinones, 2,3-dimethoxy-1,4-naphthoquinone(DMONQ), 2-methyl-1,4-naphthoquinone (MNQ), 1,4-naphthoquinone(NQ), and 1,4-benzoquinone (BQ), which redox cycle or arlyatein mammalian cells, was determined in isolated trout (Oncorhynchusmykiss) hepatocytes. More than 70% of cells died in 3 h whenexposed to BQ or NQ; 50% died in 7 h when exposed to MNQ; withno mortality compared to controls after 7 h DMONQ exposure.A suite of biochemical parameters were assessed for abilityto discriminate these reactivity pathways in fish. Rapid depletionof glutathione (GSH) with appearance of glutathione disulfide(GSSG) and increased dichlorofluoroscein fluorescence were usedas indicators of redox cycling, noted with DMONQ, MNQ, and NQ.Depletion of GSH with no GSSG accumulation, and loss of freeprotein thiol (PrSH) groups (non-reducible) indicated directarylation by BQ. All toxicants rapidly oxidized NADH, with changesin NADPH noted later (BQ, NQ, MNQ) or not at all (DMONQ). Biochemicalmeasures including cellular energy status, cytotoxicity, andmeasures of reactive oxygen species, along with the key parametersof GSH and PrSH redox status, allowed differentiation of responsesassociated with lethality. Chemicals which arylate were morepotent than redox cyclers. Toxic pathway discrimination is neededto group chemicals for potency predictions and identificationof structural parameters associated with distinct types of reactivetoxicity, a necessary step for development of mechanistically-basedQSARs to predict chemical toxic potential. The commonality ofreactivity mechanisms between rodents and fish was also demonstrated,a step essential for species extrapolations.

toxicity pathways, cross-species extrapolation, quinones, glutathione, reactive oxygen species, protein thiol, Oncorhynchus mykiss .

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