AHR-mediated ROS production contributes to the cardiac developmental toxicity of PM2.5 in zebrafish embryos

斑马鱼 氧化应激 活性氧 发育毒性 DNA损伤 细胞凋亡 细胞生物学 SOD2 芳香烃受体 基因敲除 生物 分子生物学 化学 超氧化物歧化酶 内分泌学 生物化学 DNA 转录因子 基因 遗传学 怀孕 妊娠期
作者
Fei Ren,Cheng Ji,Yujie Huang,Stanley Aniagu,Yan Jiang,Tao Chen
出处
期刊:Science of The Total Environment [Elsevier BV]
卷期号:719: 135097-135097 被引量:126
标识
DOI:10.1016/j.scitotenv.2019.135097
摘要

Recent studies have shown an association between maternal exposure to ambient fine particle matter (PM2.5) and congenital heart defects in the offspring, but the underlying molecular mechanisms are yet to be elucidated. Previously, we demonstrated that extractable organic matter (EOM) from PM2.5 induced heart defects in zebrafish embryos by activating the aromatic hydrocarbon receptor (AHR). Hence, we hypothesized that AHR mediates excessive reactive oxygen species (ROS) production, leading to the cardiac developmental toxicity of PM2.5. To test our hypothesis, we examined AHR activity and ROS levels in the heart of zebrafish embryos under a fluorescence microscope. mRNA expression levels were then quantified using qPCR whereas DNA damage and apoptosis were detected by immunofluorescence. Our results showed that the AHR inhibitor, CH223191 (CH) as well as the ROS scavenger, N-Acetyl-L-cysteine (NAC), significantly mitigated the PM2.5-induced cardiac malformations in zebrafish embryos. Furthermore, both CH and NAC diminished the EOM-elevated ROS generation, DNA damage and apoptosis in the test system. Incidentally, both CH and NAC attenuated the EOM-induced changes in the mRNA expression of genes involved in cardiac development (nkx2.5, sox9b), oxidative stress (nrf2a, nrf2b, gstp1, gstp2, sod2, ho1, cat) and apoptosis (p53, bax). We further confirmed that AHR activity is a necessary condition for EOM-induced ROS generation, DNA damage and apoptosis, through AHR knockdown. However, the ROS scavenger NAC did not counteract the EOM-induced AHR activity. In conclusion, our findings suggest that AHR mediates EOM-induced oxidative stress, resulting in DNA damage and apoptosis, thereby contributing to the cardiac developmental toxicity of PM2.5.

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