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A tiered approach to investigate the inhalation toxicity of cobalt substances. Tier 2 b: Reactive cobalt substances induce oxidative stress in ToxTracker and activate hypoxia target genes

Remco Derr, Nynke Moelijker, Giel Hendriks, Inger Brandsma

2022Regulatory Toxicology and Pharmacology11 citationsDOIOpen Access PDF

Abstract

Cobalt metal and cobalt sulfate are carcinogenic in rodents following inhalation exposure. The pre-carcinogenic effects associated with exposure to these cobalt substances include oxidative stress and genotoxicity. Some, but not all, cobalt substances induce in vitro clastogenicity or an increase in micronuclei. As a result, these substances are classified genotoxic carcinogens, having major impacts on their risk assessment, e.g. assumption of a non-thresholded dose response. Here, we investigated the potential of nine cobalt substances to cause genotoxicity and oxidative stress using the ToxTracker assay, with an extension to measure biomarkers of hypoxia. None of the nine tested substances activated the DNA damage markers in ToxTracker, and five substances activated the oxidative stress response reporters. The same five substances also activated the expression of several hypoxia target genes. Consistent with the lower tier of testing found in the preceding paper of this series, these compounds can be grouped based on their ability to release bioavailable cobalt ion and to trigger subsequent key events.

Topics & Concepts

Oxidative stressGenotoxicityCobaltMicronucleus testCarcinogenReactive oxygen speciesChemistryDNA damagePharmacologyInhalationToxicologyToxicityEnvironmental chemistryBiochemistryBiologyDNAOrganic chemistryAnatomyAir Quality and Health ImpactsCarcinogens and Genotoxicity AssessmentToxic Organic Pollutants Impact
A tiered approach to investigate the inhalation toxicity of cobalt substances. Tier 2 b: Reactive cobalt substances induce oxidative stress in ToxTracker and activate hypoxia target genes | Litcius