Ghio Andrew J, Soukup Joleen M, Dailey Lisa A, Richards Judy H, Duncan Kelly E, Lehmann James
National Health and Environmental Effects Research Laboratory, Office of Research and Development, United States Environmental Protection Agency, Research Triangle Park , NC , USA and.
Inhal Toxicol. 2014 Jun;26(7):391-9. doi: 10.3109/08958378.2014.908330.
Ozone (O₃) exposure is associated with a disruption of iron homeostasis and increased availability of this metal which potentially contributes to an oxidative stress and biological effects.
We tested the postulate that increased concentrations of iron in cells, an animal model and human subjects would significantly impact the biological effects of O₃ exposure.
Exposure to 0.4 ppm O₃ for 5 h increased mRNA for both Superoxide Dismutase-1 (SOD1) and Cyclooxygenase-2 (COX2) in normal human bronchial epithelial (NHBE) cells. Pre-treatment of NHBE cells with 200 µM ferric ammonium citrate (FAC) for 4 h diminished changes in both SOD1 and COX2 following O₃ exposure. mRNA transcript levels and associated protein release of the pro-inflammatory mediators IL-6 and IL-8 were increased by O₃ exposure of NHBE cells; changes in these endpoints after O₃ exposure were significantly decreased by FAC pre-treatment of the cells. Exposure of CD-1 mice to 2 ppm O₃ for 3 h significantly increased lavage indices of inflammation and airflow limitation. Pre-treatment of the animals with pharyngeal aspiration of FAC diminished the same endpoints. Finally, the mean loss of pulmonary function in 19 healthy volunteers exposed to 0.3 ppm O₃ for 2 h demonstrated significant correlations with either their pre-exposure plasma ferritin or iron concentrations.
We conclude that greater availability of iron after O₃ exposure does not augment biological effects. On the contrary, increased available iron decreases the biological effects of O₃ exposure in cells, animals and humans.
暴露于臭氧(O₃)会导致铁稳态失衡,这种金属的可用性增加,这可能会导致氧化应激和生物学效应。
我们验证了一个假设,即细胞、动物模型和人类受试者中铁浓度的增加会显著影响暴露于O₃的生物学效应。
正常人类支气管上皮(NHBE)细胞暴露于0.4 ppm O₃ 5小时后,超氧化物歧化酶-1(SOD1)和环氧化酶-2(COX2)的mRNA均增加。用200 μM柠檬酸铁铵(FAC)预处理NHBE细胞4小时可减少O₃暴露后SOD1和COX2的变化。NHBE细胞暴露于O₃后,促炎介质IL-6和IL-8的mRNA转录水平及相关蛋白释放增加;细胞经FAC预处理后,O₃暴露后这些终点的变化显著降低。CD-1小鼠暴露于2 ppm O₃ 3小时后,炎症灌洗指数和气流受限显著增加。对动物进行FAC咽内吸入预处理可减少相同的终点。最后,19名健康志愿者暴露于0.3 ppm O₃ 2小时后肺功能的平均损失与暴露前血浆铁蛋白或铁浓度显著相关。
我们得出结论,O₃暴露后铁可用性的增加不会增强生物学效应。相反,可利用铁的增加会降低细胞、动物和人类暴露于O₃的生物学效应。
