聚苯乙烯纳米塑料以性别依赖的方式改变斑马鱼(Danio rerio)肠道中 2,4-DTBP 的毒性。

Journal of hazardous materials Pub Date : 2024-10-05 Epub Date: 2024-08-22 DOI:10.1016/j.jhazmat.2024.135585
Ruimin Liu, Huina Gao, Xuefang Liang, Jiye Zhang, Qingjian Meng, Yuchen Wang, Wei Guo, Christopher J Martyniuk, Jinmiao Zha
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摘要

纳米塑料(NPs)和 2,4-二叔丁基苯酚(2,4-DTBP)是在水生环境中检测到的无处不在的新兴环境污染物。虽然 2,4-DTBP 本身的肠道毒性已被研究过,但其与 NPs 的联合效应仍不清楚。在这里,成年斑马鱼暴露于 80 纳米聚苯乙烯纳米塑料(PS-NPs)或/和 2,4-DTBP 28 天。在同时暴露 PS-NPs 的情况下,2,4-DTBP 对雄性斑马鱼摄食能力和肠道组织病理学的影响增强,而对雌性斑马鱼的影响减弱。添加 PS-NPs 显著降低了雌性动物对 2,4-DTBP 的吸收,而在共同暴露组中,2,4-DTBP 的肠道浓度在性别上没有差异。此外,雄鱼的肠道 pH 值较低,消化酶含量较高,而雌鱼的胆汁酸含量则显著增加。此外,共同暴露于 PS-NPs 会刺激雌鱼重塑微生物组成,从而有可能提高异种生物的降解,而阴性气单胞菌则会加重雄鱼的炎症。这些结果表明,在存在 PS-NPs 的情况下,雌鱼的肠道微环境可促进 2,4-DTBP 的解毒,同时加剧雄鱼的毒性。总之,这项研究表明,NPs-化学混合物的毒理学结果可能会因性别特异性生理和微生物群组成而改变,从而进一步加深了对环境风险评估和水生环境管理的理解。
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Polystyrene nanoplastics alter intestinal toxicity of 2,4-DTBP in a sex-dependent manner in zebrafish (Danio rerio).

Nanoplastics (NPs) and 2,4-di-tert-butylphenol (2,4-DTBP) are ubiquitous emerging environmental contaminants detected in aquatic environment. While the intestinal toxicity of 2,4-DTBP alone has been studied, its combined effects with NPs remain unclear. Herein, adult zebrafish were exposed to 80 nm polystyrene nanoplastics (PS-NPs) or/ and 2,4-DTBP for 28 days. With co-exposure of PS-NPs, impact of 2,4-DTBP on feeding capacity and intestinal histopathology was enhanced in males while attenuated in females. Addition of PS-NPs significantly decreased the uptake of 2,4-DTBP in females, while the intestinal concentrations of 2,4-DTBP were not different between the sexes in co-exposure groups. Furthermore, lower intestinal pH and higher contents of digestive enzymes were detected in male fish, while bile acid was significantly increased in co-exposed females. In addition, co-exposure of PS-NPs stimulated female fish to remodel microbial composition to potentially enhance xenobiotics degradation, while negative Aeromonas aggravated inflammation in males. These results indicated that in the presence of PS-NPs, the gut microenvironment in females can facilitate the detoxification of 2,4-DTBP, while exaggerating toxiciy in males. Overall, this study demonstrates that toxicological outcomes of NPs-chemical mixtures may be modified by sex-specific physiology and microbiota composition, furthering understanding for environmental risk assessment and management of aquatic environments.

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