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The size‐dependent genotoxic potentials of titanium dioxide nanoparticles to endothelial cells
Author(s) -
Liao Fen,
Chen Lingying,
Liu Yuanfeng,
Zhao Dongting,
Peng Wenyi,
Wang Wuxiang,
Feng Shaolong
Publication year - 2019
Publication title -
environmental toxicology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.813
H-Index - 77
eISSN - 1522-7278
pISSN - 1520-4081
DOI - 10.1002/tox.22821
Subject(s) - comet assay , micronucleus test , reactive oxygen species , umbilical vein , intracellular , micronucleus , glutathione , chemistry , dna damage , genotoxicity , microbiology and biotechnology , anatase , titanium dioxide , biophysics , biochemistry , toxicity , biology , dna , in vitro , materials science , organic chemistry , enzyme , photocatalysis , metallurgy , catalysis
Despite intensive research activities, there are still many major knowledge gaps over the potential adverse effects of titanium dioxide nanoparticles (TiO 2 ‐NPs), one of the most widely produced and used nanoparticles, on human cardiovascular health and the underlying mechanisms. In the present study, alkaline comet assay and cytokinesis‐block micronucleus test were employed to determine the genotoxic potentials of four sizes (100, 50, 30, and 10 nm) of anatase TiO 2 ‐NPs to human umbilical vein endothelial cells (HUVECs) in culture. Also, the intracellular redox statuses were explored through the measurement of the levels of reactive oxygen species (ROS) and reduced glutathione (GSH) with kits, respectively. Meanwhile, the protein levels of nuclear factor erythroid 2‐related factor 2 (Nrf2) were also detected by western blot. The results showed that at the exposed levels (1, 5, and 25 μg/mL), all the four sizes of TiO 2 ‐NPs could elicit an increase of both DNA damage and MN frequency in HUVECs in culture, with a positive dose‐dependent and negative size‐dependent effect relationship (T100 < T50 < T30 < T10). Also, increased levels of intracellular ROS, but decreased levels of GSH, were found in all the TiO 2 ‐NP‐treated groups. Intriguingly, a very similar manner of dose‐dependent and size‐dependent effect relationship was observed between the ROS test and both comet assay and MN test, but contrary to that of GSH assay. Correspondingly, the levels of Nrf2 protein were also elevated in the TiO 2 ‐NP‐exposed HUVECs, with an inversely size‐dependent effect relationship. These findings indicated that induction of oxidative stress and subsequent genotoxicity might be an important biological mechanism by which TiO 2 ‐NP exposure would cause detrimental effects to human cardiovascular health.

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