Although most studies that explore the cytotoxicity of
titanium
dioxide nanoparticles (nano-TiO2) have focused on cell
viability and oxidative stress, the cell cycle, a basic process of
cell life, can also be affected. However, the results on the effects
of nano-TiO2 on mammalian cell cycle are still inconsistent.
A systematic review and meta-analysis were therefore performed in
this research based on the effects of nano-TiO2 on the
mammalian cell cycle in vitro to explore whether
nano-TiO2 can induce cell cycle arrest. Meanwhile, the
impact of physicochemical properties of nano-TiO2 on the
cell cycle in vitro was investigated, and the response
of normal cells and cancer cells was compared. A total of 33 articles
met the eligibility criteria after screening. We used Review Manager
5.4 and Stata 15.1 for analysis. The results showed an increased percentage
of cells in the sub-G1 phase and an upregulation of the p53 gene after
being exposed to nano-TiO2. Nevertheless, nano-TiO2 had no effect on cell percentage in other phases of the cell
cycle. Furthermore, subgroup analysis revealed that the cell percentage
in both the sub-G1 phase of normal cells and S phase of cancer cells
were significantly increased under anatase-form nano-TiO2 treatment. Moreover, nano-TiO2 with a particle size <25
nm or exposure duration of nano-TiO2 more than 24 h induced
an increased percentage of normal cells in the sub-G1 phase. In addition,
the cell cycle of cancer cells was arrested in the S phase no matter
if the exposure duration of nano-TiO2 was more than 24
h or the exposure concentration was over 50 μg/mL. In conclusion,
this study demonstrated that nano-TiO2 disrupted the cell
cycle in vitro. The cell cycle arrest induced by
nano-TiO2 varies with cell status and physicochemical properties
of nano-TiO2.
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