Genotoxic effects of zinc oxide nanoparticles

纳米颗粒 活性氧 活力测定 遗传毒性 化学 毒性 细胞内 生物物理学 纳米材料 DNA损伤 纳米毒理学 核化学 纳米技术 生物化学 DNA 体外 材料科学 生物 有机化学
作者
Julia Heim,Eva Felder,Muhammad Nawaz Tahir,Anke Kaltbeitzel,Ulf Ruediger Heinrich,Christoph Brochhausen,Volker Mailänder,Wolfgang Tremel,Juergen Brieger
出处
期刊:Nanoscale [Royal Society of Chemistry]
卷期号:7 (19): 8931-8938 被引量:103
标识
DOI:10.1039/c5nr01167a
摘要

The potential toxicity of nanoparticles has currently provoked public and scientific discussions, and attempts to develop generally accepted handling procedures for nanoparticles are under way. The investigation of the impact of nanoparticles on human health is overdue and reliable test systems accounting for the special properties of nanomaterials must be developed. Nanoparticular zinc oxide (ZnO) may be internalised through ambient air or the topical application of cosmetics, only to name a few, with unpredictable health effects. Therefore, we analysed the determinants of ZnO nanoparticle (NP) genotoxicity. ZnO NPs (15–18 nm in diameter) were investigated at concentrations of 0.1, 10 and 100 μg mL−1 using the cell line A549. Internalised NPs were only infrequently detectable by TEM, but strongly increased Zn2+ levels in the cytoplasm and even more in the nuclear fraction, as measured by atom absorption spectroscopy, indicative of an internalised zinc and nuclear accumulation. We observed a time and dosage dependent reduction of cellular viability after ZnO NP exposure. ZnCl2 exposure to cells induced similar impairments of cellular viability. Complexation of Zn2+ with diethylene triamine pentaacetic acid (DTPA) resulted in the loss of toxicity of NPs, indicating the relevant role of Zn2+ for ZnO NP toxicity. Foci analyses showed the induction of DNA double strand breaks (DSBs) by ZnO NPs and increased intracellular reactive oxygen species (ROS) levels. Treatment of the cells with the ROS scavenger N-acetyl-L-cysteine (NAC) resulted in strongly decreased intracellular ROS levels and reduced DNA damage. However, a slow increase of ROS after ZnO NP exposure and reduced but not quashed DSBs after NAC-treatment suggest that Zn2+ may exert genotoxic activities without the necessity of preceding ROS-induction. Our data indicate that ZnO NP toxicity is a result of cellular Zn2+ intake. Subsequently increased ROS-levels cause DNA damage. However, we found evidence for the assumption that DNA-DSBs could be caused by Zn2+ without the involvement of ROS.
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