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In Vitro Analysis of the Effects of ITER-Like Tungsten Nanoparticles: Cytotoxicity and Epigenotoxicity in BEAS-2B Cells.

Chiara UboldiMarcos Sanles SobridoElodie BernardVirginie TassistroNathalie Herlin-BoimeDominique VrelSébastien Garcia-ArgoteStéphane RocheFrédérique MagdinierGheorghe DinescuVéronique MalardLaurence Lebaron-JacobsJerome RoseBernard RousseauPhilippe DelaporteChristian GrisoliaThierry Orsière
Published in: Nanomaterials (Basel, Switzerland) (2019)
Tungsten was chosen as a wall component to interact with the plasma generated by the International Thermonuclear Experimental fusion Reactor (ITER). Nevertheless, during plasma operation tritiated tungsten nanoparticles (W-NPs) will be formed and potentially released into the environment following a Loss-Of-Vacuum-Accident, causing occupational or accidental exposure. We therefore investigated, in the bronchial human-derived BEAS-2B cell line, the cytotoxic and epigenotoxic effects of two types of ITER-like W-NPs (plasma sputtering or laser ablation), in their pristine, hydrogenated, and tritiated forms. Long exposures (24 h) induced significant cytotoxicity, especially for the hydrogenated ones. Plasma W-NPs impaired cytostasis more severely than the laser ones and both types and forms of W-NPs induced significant micronuclei formation, as shown by cytokinesis-block micronucleus assay. Single DNA strand breaks, potentially triggered by oxidative stress, occurred upon exposure to W-NPs and independently of their form, as observed by alkaline comet assay. After 24 h it was shown that more than 50% of W was dissolved via oxidative dissolution. Overall, our results indicate that W-NPs can affect the in vitro viability of BEAS-2B cells and induce epigenotoxic alterations. We could not observe significant differences between plasma and laser W-NPs so their toxicity might not be triggered by the synthesis method.
Keyphrases
  • oxide nanoparticles
  • oxidative stress
  • diabetic rats
  • high throughput
  • high glucose
  • high speed
  • mass spectrometry