斑马鱼
心脏毒性
达尼奥
发育毒性
毒性
生物
卵黄囊
心脏发育
胚胎
氧化应激
药理学
胚胎发生
细胞生物学
化学
过氧化氢酶
细胞凋亡
男科
胚胎干细胞
内科学
基因
遗传学
医学
胎儿
怀孕
作者
Manman Duan,Jie Zhang,Jia Liu,Le Qian,Xiangguang Chen,Feng Zhao,Wentian Zhao,Zhaomin Zhong,Yang Yang,Chengju Wang
标识
DOI:10.1016/j.envpol.2021.117481
摘要
Diamide insecticides are a threat to aquatic organisms but the toxicity of broflanilide remains largely undefined. In this study, to clarify the risk of broflanilide to aquatic organisms and explore its possible mechanism, lethal and sub-lethal exposure of zebrafish embryos were performed. The acute toxicity LC50 (50% lethal concentration) (96 h) of broflanilide to zebrafish embryos and larvae were 3.72 mg/L and 1.28 mg/L, respectively. It also caused toxic symptoms including reduced heart rate, pericardial edema, yolk sac edema and shortened larval body length at ≥ 0.2 mg/L. Understanding the cellular and molecular changes underlying developmental toxicity in early stages of zebrafish may be very important to further improvement of this study. Here, we found cell apoptosis in embryonic heart, significant up-regulation in expression of genes associated with apoptosis and increased activity of caspase-9. In particular, we detected the levels of genes and TBX5 (T-box protein 5) related to cardiac development, which were significantly increased in this study and may be contribution to the cardiotoxicity of embryos. In general, our results identified the aquatic toxicity of broflanilide to the early stage of zebrafish and provide insights into the underlying mechanism in developmental toxicity especially cardiotoxicity of embryos.
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