Life cycle exposure to differentially charged polystyrene nanoplastics leads to gender-specific particle accumulation and neurotoxicity in zebrafish (Danio rerio)

IF 10.3 1区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES

Environment International Pub Date : 2025-04-06 DOI:10.1016/j.envint.2025.109441

Miaomiao Teng , Yunxia Li , Lihui Zhao , Jason C. White , Jiaqi Sun , Zixuan Zhang , Li Chen , Jiangjiang Zhu , Fengchang Wu

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引用次数: 0

Abstract

Nanoplastics (NPs) have been widely detected in freshwater environments and photodegradation, as well as physical and chemical breakdown, lead to different surface charges on the plastics. Although evidence in the literature highlights the importance of NPs surface charge to neurotoxicity, substantial gaps in mechanistic understanding remain. In the current study, zebrafish (Danio rerio) were exposed to differentially charged NPs (PS, PS-NH₂, PS-COOH) at environmentally relevant concentration (10 μg/L). After full life cycle exposure, the potential neurotoxicity, brain damage, and the altered brain metabolism was investigated through light sheet microscopy 3-dimensional imaging, histopathology, Evans blue dye (EBD) extravasation, gene expression, and untargeted and targeted metabolomics of brain tissue in zebrafish. Exposure to PS, PS-NH₂, PS-COOH caused adverse effects on the performance of neurobehaviors, blood–brain-barrier (BBB) permeability, amino acid metabolism, damage to the BBB and mitochondria, and overt inflammatory response. PS-NH₂ (4.56-fold) and PS-COOH (3.59-fold) accumulated in the reticular formation (RF) of the male brain, while only PS-NH₂ was detected in the RF (6.57-fold) and ventral hypothalamus (Hv) (3.08-fold) of female brains. Several important biological pathways were negatively impacted in a charge- and gender-specific fashion. This study provides novel insights into the underlying toxicity mechanisms of differentially charged NPs in a model aquatic species, as well as the associated environmental risks of this important group of emerging contaminants.

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生命周期暴露于不同电荷的聚苯乙烯纳米塑料导致斑马鱼性别特异性颗粒积累和神经毒性（Danio rerio）

纳米塑料广泛存在于淡水环境中，其光降解和物理、化学分解会导致塑料表面带不同的电荷。尽管文献中的证据强调了NPs表面电荷对神经毒性的重要性，但在机制理解上仍然存在实质性差距。本研究将斑马鱼（Danio rerio）暴露于环境相关浓度（10 μg/L）的差电荷NPs （PS、PS- nh2、PS- cooh）环境中。在斑马鱼全生命周期暴露后，通过光片显微镜三维成像、组织病理学、埃文斯蓝染料（EBD）外渗漏、基因表达以及脑组织非靶向和靶向代谢组学研究了潜在的神经毒性、脑损伤和脑代谢改变。暴露于PS、PS- nh2、PS- cooh会对神经行为、血脑屏障（BBB）通透性、氨基酸代谢、血脑屏障和线粒体损伤以及明显的炎症反应产生不良影响。PS-NH2（4.56倍）和PS-COOH（3.59倍）聚集在雄性脑网状结构（RF）中，而PS-NH2仅在雌性脑网状结构（6.57倍）和下丘脑腹侧（3.08倍）中检测到。一些重要的生物学途径受到了不同性别的负面影响。这项研究为模型水生物种中不同电荷的NPs的潜在毒性机制以及这组重要新兴污染物的相关环境风险提供了新的见解。

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来源期刊

Environment International 环境科学-环境科学

CiteScore

21.90

自引率

3.40%

发文量

734

审稿时长

2.8 months

期刊介绍： Environmental Health publishes manuscripts focusing on critical aspects of environmental and occupational medicine, including studies in toxicology and epidemiology, to illuminate the human health implications of exposure to environmental hazards. The journal adopts an open-access model and practices open peer review. It caters to scientists and practitioners across all environmental science domains, directly or indirectly impacting human health and well-being. With a commitment to enhancing the prevention of environmentally-related health risks, Environmental Health serves as a public health journal for the community and scientists engaged in matters of public health significance concerning the environment.