Gene Expression Profiles in Fathead Minnow Exposed to 2,4-DNT: Correlation with Toxicity in Mammals

doi:10.1093/toxsci/kfl080

ToxSci Advance Access originally published online on August 17, 2006
Toxicological Sciences 2006 94(1):71-82; doi:10.1093/toxsci/kfl080

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Gene Expression Profiles in Fathead Minnow Exposed to 2,4-DNT: Correlation with Toxicity in Mammals

Henri Wintz^*^,1, Leslie J. Yoo, Alex Loguinov^*, Ying-Ying Wu^*, Jeffrey A. Steevens, Ricky D. Holland, Richard D. Beger, Edward J. Perkins, Owen Hughes and Chris D. Vulpe^*

^* Department of Nutritional Sciences and Toxicology, Morgan Hall and Berkeley Institute of the Environment, University of California, Berkeley, California 94720 US Army Corps of Engineer Research and Development Center, Environmental Laboratory, Vicksburg, Mississippi 39180 Division of Systems Toxicology, National Center for Toxicological Research, Jefferson, Arkansas 72079 Eon Corporation, Davis, California 95616

Received August 14, 2006; accepted August 15, 2006

Toxicogenomics, the genome-wide analysis of gene expressionto study the effect of toxicants, has great potential for usein environmental toxicology. Applied to standard test organisms,it has possible applications in aquatic toxicology as a sensitivemonitoring tool to detect the presence of contaminants whileproviding information on the mechanisms of action of these pollutants.We describe the use of a complementary DNA (cDNA) microarrayof the fathead minnow (Pimephales promelas) a standard sentinelorganism in aquatic toxicology, to better understand the mechanismsof toxicity of 2,4-dinitrotoluene (2,4-DNT) which is releasedin the environment through military and industrial use. We haveconstructed a fathead minnow microarray containing 5000 randomlypicked anonymous cDNAs from a whole fish cDNA library. Expressionprofiles were analyzed in fish exposed to 2,4-DNT for 10 daysat three concentrations (11, 22, and 44µM, respectively)below the measured median lethal concentration (58µM).Sequence analysis of cDNAs corresponding to differentially expressedgenes affected by exposure revealed that lipid metabolism andoxygen transport genes were prominently affected in a dose-specificmanner. We measured liver lipids and demonstrate that lipidmetabolism is indeed perturbed following exposure. These observationscorrelate well with available toxicological data on 2,4-DNT.We present possible modes of action of 2,4-DNT toxicity andsuggest that fathead minnow cDNA microarrays can be useful toidentify mechanisms of toxicity in fish and as a predictivetool for toxicity in mammals.

Key Words: dinitrotoluene; peroxisome proliferators; methemoglobinemia; microarrays; ecotoxicogenomics.

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