生物累积
斑马鱼
毒物动力学
发育毒性
环境化学
毒性
化学
生态毒理学
生物测定
生物
神经毒素
发育阶段
发展概况
毒理
生物浓缩
代谢组学
生物监测
化学毒性
多氯联苯
全氟辛烷
水污染物
杀虫剂
污染
药理学
水生环境
急性暴露
达尼奥
全氟辛酸
水生生态系统
代谢物
生理学
作者
Paul G. Kraus,Youn-Jeong CHOI,Linda S. Lee,JENNIFER L. FREEMAN,Paul G. Kraus,Youn-Jeong CHOI,Linda S. Lee,JENNIFER L. FREEMAN
标识
DOI:10.1021/acs.est.5c10194
摘要
Perfluorooctanesulfonate (PFOS), perfluorodecanoic acid (PFDA), and perfluoroundecanoic acid (PFUnA) are three legacy long-chain per-/polyfluoroalkyl substances (PFAS). Although phased out of production, recent studies indicate substantial exposure can occur through consumption of contaminated freshwater fish, with minimal information known on the potential for developmental toxicity, especially for PFDA and PFUnA. In this study, zebrafish were used to characterize the toxicokinetics of these three PFAS as a model for developmental neurotoxicity, specifically behavior and dopamine (DA) dysregulation. Mass spectrometer quantification of water and tissue samples revealed that all three PFAS were rapidly absorbed during the early developmental window and bioconcentrated in tissue to a substantial degree. The visual motor response assay revealed altered behavioral patterns in the larvae, especially for PFDA and PFUnA. Enzyme-linked immunosorbent assay (ELISA) quantification of DA indicated these compounds induced elevations in total DA at nearly every exposure concentration for each compound down to the lowest test concentration used in this study at 0.004 ppb (ppb, μg/L) (equivalent to 4 ppb, US EPA drinking water regulation for PFOS). These findings confirm that PFOS, PFDA, and PFUnA exhibit a substantial capacity for bioaccumulation and demonstrate a need for further research into how developmental exposure impacts neurological health.
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