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  • Difficulty of mode of action determination for trichloroethylene: An example of complex interactions of metabolites and other chemical exposures.

Difficulty of mode of action determination for trichloroethylene: An example of complex interactions of metabolites and other chemical exposures.

Environmental and molecular mutagenesis (2007-11-02)
Jane C Caldwell, Nagalakshmi Keshava, Marina V Evans
ABSTRACT

The mode(s) of action (MOA) of a pollutant for adverse health effects may be dependent on the mixture of metabolites resulting from exposure to a single agent and may also be affected by coexposure to pollutants that have similar targets or affected pathways. Trichloroethylene (TCE) can be an useful example for illustration of the complexity coexposure can present to elucidation of the MOA of an agent. TCE exposure has been associated with increased risk of liver and kidney cancer in both laboratory animal and epidemiologic studies. There are a number of TCE metabolites that could play a role in the induction of these effects. Coexposures of other chemicals with TCE typically occurs as a result of environmental cocontamination that include its own metabolites, such as trichloroacetic acid, dichloroacetic acid, and other pollutants with similar metabolites such as perchloroethylene. Behaviors such as alcohol consumption can also potentially modify TCE toxicity through similar MOAs. The U.S. Environmental Protection Agency (EPA)'s 2001 draft TCE risk assessment, Trichloroethylene (TCE) Health Risk Assessment: Synthesis and Characterization, concluded that it was difficult to determine which of the metabolites of TCE may be responsible for these effects, what key events in their hypothesized MOAs are involved, and the relevance of some of the hypothesized MOAs to humans. Since the publication of U.S. EPA's draft TCE assessment, several studies have been conducted to understand the effects of coexposures to TCE. They cover both pharmacodynamic and pharmacokinetic considerations. This article highlights some of the recently published scientific literature on toxicological interactions between TCE, its metabolites, and other coexposures, including solvents, haloacetates, and ethanol. These studies give insight into both the potential MOAs of TCE exposure itself and putative modulators of TCE toxicity, and illustrate the difficulties encountered in determining the MOAs and modulators of toxicity for pollutants with such complex metabolism and coexposures.

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Sigma-Aldrich
Trichloroethylene, ACS reagent, ≥99.5%
Supelco
Trichloroethylene solution, certified reference material, 5000 μg/mL in methanol
Supelco
Trichloroethylene, analytical standard, stabilized with 30 – 50 ppm Diisopropylamine
USP
Residual Solvent Class 2 - Trichloroethylene, United States Pharmacopeia (USP) Reference Standard
Sigma-Aldrich
Trichloroethylene, anhydrous, contains 40 ppm diisopropylamine as stabilizer, ≥99%