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Comparative effects of metal oxide nanoparticles on human airway epithelial cells and macrophages
Link to Journal Abstract
Among nanomaterials of industrial relevance, metal-based nanoparticles (NPs) are widely used, but their effects on airway cells are relatively poorly characterized. To compare the effects of metal NPs on cells representative of the lung-blood barrier, Calu-3 epithelial cells and Raw264.7 macrophages were incubated with three industrially relevant preparations of TiO2 NPs (size range 4–33 nm), two preparations of CeO2 NPs (9–36 nm) and CuO NPs (25 nm). While Raw264.7 were grown on standard plasticware, Calu-3 cells were seeded on permeable filters, where they form a high-resistance monolayer, providing an in vitro model of the airway barrier. Metal NPs, obtained from industrial sources, were characterized under the conditions adopted for the biological tests. Cytotoxicity was assessed with resazurin method in both epithelial and macrophage cells, while epithelial barrier permeability was monitored measuring the trans-epithelial electrical resistance (TEER). In macrophages, titania and ceria had no significant effect on viability in the whole range of nominal doses tested (15–240 ?g/cm2 of monolayer), while CuO NPs produced a marked viability loss. Moreover, only CuO NPs, but not the other NPs, lowered TEER of Calu-3 monolayers, pointing to the impairment of the epithelial barrier. TEER decreased by 30 % at the dose of 10 ?g/cm2 of CuO NPs, compared to untreated control, and was abolished at doses ?80 ?g/cm2, in strict correlation with changes in cell viability. These results indicate that (1) CuO NPs increase airway epithelium permeability even at relatively low doses and are significantly toxic for macrophages and airway epithelial cells, likely through the release of Cu ions in the medium; (2) TiO2 and CeO2 NPs do not affect TEER and exhibit little acute toxicity for airway epithelial cells and macrophages; and (3) TEER measurement can provide a simple method to assess the impairment of in vitro airway epithelial barrier model by manufactured nanomaterials.
For this study, Calu-3 epithelial cells and Raw264.7 macrophages were incubated with three industrially relevant preparations of TiO2 NPs (size range 4–33 nm), two preparations of CeO2 NPs (9–36 nm) and CuO NPs (25 nm) in order to compare the effects of metal NPs on cells representative of the lung-blood barrier.
Peer Reviewed Journal Article
Exposure Or Hazard Target
Method Of Study
Risk Exposure Group
Journal of Nanoparticle Research, 14(9): 1007 (September 2012)
Journal of Nanoparticle Research
Rotoli BM, Bussolati O, Costa AL, Blosi M, Di Christo L, Zanello PP, Bianchi MG, Visigalli R, Bergamaschi E
Last updated on October 19, 2012
This work is supported in part by the Nanoscale Science and Engineering Initiative of the National Science Foundation
under NSF Award Number EEC-0118007.
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