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多组学平台揭示罗非鱼在急性共同暴露于聚苯乙烯微塑料、磺胺甲恶唑和BDE153时的协同肠道毒性。

Multi-Omics Platforms Reveal Synergistic Intestinal Toxicity in Tilapia from Acute Co-Exposure to Polystyrene Microplastics, Sulfamethoxazole, and BDE153.

作者信息

Zheng Yao, Li Jiajia, Li Lihong, Xu Gangchun

机构信息

Wuxi Fishery College, Nanjing Agricultural University, Wuxi 214081, China.

Key Laboratory of Freshwater Fisheries and Germplasm Resources Utilization, Ministry of Agriculture and Rural Affairs, Freshwater Fisheries Research Center (FFRC), Chinese Academy of Fishery Sciences (CAFS), Wuxi 214081, China.

出版信息

Int J Mol Sci. 2025 Aug 29;26(17):8441. doi: 10.3390/ijms26178441.

DOI:10.3390/ijms26178441
PMID:40943362
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12428910/
Abstract

Polystyrene microplastic (MP) and its co-existing contaminants may exert different toxic effects on its surrounding aquatic organisms. In order to detect the intestinal harmful responses, tilapia were subjected to exposure with 75 nm of MPs, 100 ng·L of sulfamethoxazole (SMZ), 5 ng·L of BDE153, and combinations thereof over periods of 2, 4, and 8 days. Enzymatic assays, transcriptomics, proteomics, and metabolomics were employed to evaluate intestinal histopathological effects. Results showed that significant reductions were observed in ATP, ROS, SOD, EROD, lipid metabolism-related enzymes, pro-inflammatory cytokines (TNFα and IL-1β), and apoptosis marker caspase 3 across all groups at day 8. Histological evaluation revealed diminished goblet cell density, with distinct vacuole formation in the BDE153+MPs group. KEGG pathway analysis highlighted disruptions in endocytosis, MAPK signaling, phagosome formation, and actin cytoskeleton regulation. Proteomic findings indicated notable enrichment in endocytosis (decreased sorting nexin-2; increased Si:dkey-13a21.4), MAPK/PPAR signaling, protein processing in the endoplasmic reticulum (Sec61 subunit gamma), and cytoskeletal modulation (reduced fibronectin; elevated activation peptide fragment 1), with or without SMZ and BDE153. Metabolomic profiling showed significant alterations in ABC transporters, aminoacyl-tRNA biosynthesis, protein digestion and absorption, and linoleic acid metabolism. In summary, these findings suggest that BDE153 and MPs synergistically exacerbate intestinal damage and gene/protein expression over time, while SMZ appears to exert an antagonistic, mitigating effect.

摘要

聚苯乙烯微塑料(MP)及其共存污染物可能对周围水生生物产生不同的毒性作用。为了检测肠道的有害反应,将罗非鱼暴露于75纳米的微塑料、100纳克/升的磺胺甲恶唑(SMZ)、5纳克/升的BDE153及其组合中,暴露时间分别为2天、4天和8天。采用酶活性测定、转录组学、蛋白质组学和代谢组学方法评估肠道组织病理学效应。结果显示,在第8天,所有组的三磷酸腺苷(ATP)、活性氧(ROS)、超氧化物歧化酶(SOD)、7-乙氧基异吩恶唑酮-O-脱乙基酶(EROD)、脂质代谢相关酶、促炎细胞因子(肿瘤坏死因子α和白细胞介素-1β)以及凋亡标志物半胱天冬酶3均显著降低。组织学评估显示杯状细胞密度降低,在BDE153+微塑料组中出现明显的空泡形成。京都基因与基因组百科全书(KEGG)通路分析突出了内吞作用、丝裂原活化蛋白激酶(MAPK)信号传导、吞噬体形成和肌动蛋白细胞骨架调节的破坏。蛋白质组学研究结果表明,无论有无SMZ和BDE153,内吞作用(分选连接蛋白-2减少;Si:dkey-13a21.4增加)、MAPK/过氧化物酶体增殖物激活受体(PPAR)信号传导、内质网中的蛋白质加工(Sec61亚基γ)以及细胞骨架调节(纤连蛋白减少;激活肽片段1升高)均有显著富集。代谢组学分析表明,ABC转运蛋白、氨酰基-tRNA生物合成、蛋白质消化和吸收以及亚油酸代谢发生了显著变化。总之,这些发现表明,随着时间的推移,BDE153和微塑料协同加剧肠道损伤以及基因/蛋白质表达,而SMZ似乎发挥了拮抗、减轻的作用。

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本文引用的文献

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2
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3
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