Alterations of Cellular Redox State During NNK-Induced Malignant Transformation and Resistance to Radiation

摘要

Cancer cells often exhibit increased reactive oxygen species generation and altered redox regulation. The current study was conducted to investigate the biochemical and molecular events associated with redox alterations during chemical-induced malignant transformation and to evaluate their potential roles in radiation sensitivity. Immortalized nonmalignant human bronchial epithelial cells were exposed to the tobacco carcinogen 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK), and a clone of cells exhibiting malignant behaviors was isolated and characterized. This clone initially exhibited an increase in cellular superoxide that eventually decreased after a long-term culture in vitro, associated with altered expression of antioxidant molecules, including an increase in thioredoxin-1 and manganese superoxide dismutase, and a decrease in glutathione peroxidase-1. These cells also showed a significant decrease in sensitivity to ionizing radiation, as demonstrated by less cell death in acute apoptosis analyses and long-term cell proliferation assays. Using biochemical redox modulation and siRNA approach, we showed that the increase in thioredoxin-1 played a significant role in conferring resistance to IR. Although there was a substantial increase in cellular glutathione, inhibition of glutathione synthesis did not increase IR sensitivity. Our study showed complex redox alterations during NNK-induced malignant transformation, and identified Trx-1 as a radiosensitivity modulator.