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Few-layer graphene induces both primary and secondary genotoxicity in epithelial barrier models in vitro

Michael J. Burgum, Martin J. D. Clift, Stephen J. Evans, Nicole Hondow, Afshin Tarat, Gareth Jenkins, Shareen H. Doak

2021Journal of Nanobiotechnology35 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Toxicological evaluation of engineered nanomaterials (ENMs) is essential for occupational health and safety, particularly where bulk manufactured ENMs such as few-layer graphene (FLG) are concerned. Additionally, there is a necessity to develop advanced in vitro models when testing ENMs to provide a physiologically relevant alternative to invasive animal experimentation. The aim of this study was to determine the genotoxicity of non-functionalised (neutral), amine- and carboxyl-functionalised FLG upon both human-transformed type-I (TT1) alveolar epithelial cell monocultures, as well as co-cultures of TT1 and differentiated THP-1 monocytes (d.THP-1 (macrophages)). RESULTS: In monocultures, TT1 and d.THP-1 macrophages showed a statistically significant (p < 0.05) cytotoxic response with each ENM following 24-h exposures. Monoculture genotoxicity measured by the in vitro cytokinesis blocked micronucleus (CBMN) assay revealed significant (p < 0.05) micronuclei induction at 8 µg/ml for amine- and carboxyl-FLG. Transmission electron microscopy (TEM) revealed ENMs were internalised by TT1 cells within membrane-bound vesicles. In the co-cultures, ENMs induced genotoxicity in the absence of cytotoxic effects. Co-cultures pre-exposed to 1.5 mM N-acetylcysteine (NAC), showed baseline levels of micronuclei induction, indicating that the genotoxicity observed was driven by oxidative stress. CONCLUSIONS: Therefore, FLG genotoxicity when examined in monocultures, results in primary-indirect DNA damage; whereas co-cultured cells reveal secondary mechanisms of DNA damage.

Topics & Concepts

GenotoxicityMicronucleus testChemistryMicronucleusComet assayOxidative stressDNA damageIn vitroMolecular biologyBiochemistryBiologyToxicityDNAOrganic chemistryGraphene and Nanomaterials ApplicationsNanoparticles: synthesis and applicationsGraphene research and applications