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dc.contributor.authorKose, Ozge and Rachidi, Walid and Beal, David and Erkekoglu, Pinar and Fayyad-Kazan, Hussein and Gumusel, Belma Kocer
dc.date.accessioned2020-10-14T08:43:22Z
dc.date.available2020-10-14T08:43:22Z
dc.date.issued2020
dc.identifier10.1002/jat.3934
dc.identifier.issn0260-437X
dc.identifier.urihttp://hdl.handle.net/20.500.12591/166
dc.description.abstractBisphenol A (BPA) is a well-known endocrine disruptor and it is widely used mainly in the plastics industry. Due to recent reports on its possible impact on health (particularly on the male reproductive system), bisphenol F (BPF) and bisphenol S (BPS) are now being used as alternatives. In this study, RWPE-1 cells were used as a model to compare cytotoxicity, oxidative stress-causing potential and genotoxicity of these chemicals. In addition, the effects of the bisphenol derivatives were assessed on DNA repair proteins. RWPE-1 cells were incubated with BPA, BPF, and BPS at concentrations of 0-600 mu M for 24 h. The inhibitory concentration 20 (IC20, concentration that causes 20\% of cell viability loss) values for BPA, BPF, and BPS were 45, 65, and 108 mu M, respectively. These results indicated that cytotoxicity potentials were ranked as BPA > BPF > BPS. We also found alterations in superoxide dismutase, glutathione peroxidase and glutathione reductase activities, and glutathione and total antioxidant capacity in all bisphenol-exposed groups. In the standard and modified Comet assay, BPS produced significantly higher levels of DNA damage vs the control. DNA repair proteins (OGG1, Ape-1, and MyH) involved in the base excision repair pathway, as well as p53 protein levels were down-regulated in all of the bisphenol-exposed groups. We found that the BPA alternatives were also cytotoxic and genotoxic, and changed the expressions of DNA repair enzymes. Therefore, further studies are needed to assess whether they can be used safely as alternatives to BPA or not.
dc.sourceJOURNAL OF APPLIED TOXICOLOGY
dc.titleThe effects of different bisphenol derivatives on oxidative stress, DNA damage and DNA repair in RWPE-1 cells: A comparative study


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