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Evaluation of the carcinogenicity of dichloromethane in rats, mice, hamsters and humans

W. Dekant, Paul A. Jean, Josje H.E. Arts

2020Regulatory Toxicology and Pharmacology42 citationsDOIOpen Access PDF

Abstract

Dichloromethane (DCM) is a high production volume chemical (>1000 t/a) mainly used as an industrial solvent. Carcinogenicity studies in rats, mice and hamsters have demonstrated a malignant tumor inducing potential of DCM only in the mouse (lung and liver) at 1000-4000 ppm whereas human data do not support a conclusion of cancer risk. Based on this, DCM has been classified as a cat. 2 carcinogen. Dose-dependent toxicokinetics of DCM suggest that DCM is a threshold carcinogen in mice, initiating carcinogenicity via the low affinity/high capacity GSTT1 pathway; a biotransformation pathway that becomes relevant only at high exposure concentrations. Rats and hamsters have very low activities of this DCM-metabolizing GST and humans have even lower activities of this enzyme. Based on the induction of specific tumors selectively in the mouse, the dose- and species-specific toxicokinetics in this species, and the absence of a malignant tumor response by DCM in rats and hamsters having a closer relationship to DCM toxicokinetics in humans and thus being a more relevant animal model, the current classification of DCM as human carcinogen cat. 2 remains appropriate.

Topics & Concepts

CarcinogenToxicokineticsDichloromethaneChemistryHamsterToxicologyPharmacologyToxicityInternal medicineBiologyMedicineBiochemistrySolventGlutathione Transferases and PolymorphismsCarcinogens and Genotoxicity AssessmentGenomics, phytochemicals, and oxidative stress
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