斑马鱼
生物
发育毒性
生物标志物
抗生素
污染物
流出物
风险评估
毒理基因组学
计算生物学
污水处理
药物开发
毒性
废水
生物技术
药理学
环境毒理学
模式生物
诺氟沙星
毒理
生物信息学
有机体
环境化学
环境卫生
生态毒理学
环丙沙星
异型生物质的
作者
Huangqu Zhu,Xiaojuan Lan,Kaili Zhou,Huanliang Huang,Xu Song,Dexiong Chen,Lei Cai,Qiaoyuan Yang
标识
DOI:10.1016/j.ecoenv.2026.119849
摘要
Antibiotic residues in wastewater treatment plant (WWTP) effluents are a matter of global environmental health concern. This study combined global WWTP monitoring data with epidemiological modeling and zebrafish embryo assays to assess developmental risks. A meta-analysis of 121 studies identified amoxicillin, trimethoprim and norfloxacin as high priority contaminants. Ecological modeling using generalized additive models (GAM) revealed a statistical association between effluent antibiotic levels and neonatal disease incidence. Zebrafish exposed to environmentally relevant concentrations exhibited dose-dependent developmental toxicity, including pericardial edema, oxidative stress, and impaired cardiac function. Molecular analysis indicated dysregulation of the Wnt/β-catenin signaling pathway, with Wnt1 upregulation mediating toxic effects. Functional validation using CRISPR interference targeting wnt1 attenuated cardiac malformations and apoptosis, while docking simulations confirmed strong antibiotic-Wnt1 binding. These findings establish a mechanistic link between environmental antibiotic exposure and developmental toxicity and underscore the potential of Wnt1 as a biomarker for ecological risk assessment. This work supports the need for advanced tertiary treatment strategies and molecular-based monitoring frameworks.
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