Redox metabolic disruptions in the honey bee brain following acute exposure to the pyrethroid deltamethrin.

IF 3.9 2区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Scientific Reports Pub Date : 2025-08-03 DOI:10.1038/s41598-025-14089-7

Máté Mackei, Fanni Huber, Barnabás Oláh, Zsuzsanna Neogrády, Gábor Mátis

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Abstract

Deltamethrin is a widely used pyrethroid insecticide that has detrimental effects on the redox homeostasis of honey bee (Apis mellifera) brains. The decline of pollinating insect populations, including honey bee colonies, is a growing global concern. This problem results in serious ecological and economic concerns as well as veterinary- and animal health-related issues. In addition, exposure to agricultural pesticides is one of the major contributing factors. Adult worker honey bees were exposed to three sublethal concentrations of orally administered deltamethrin (1.975, 3.95, and 7.9 ng/bee/day; corresponding to LD50/40, LD50/20, and LD50/10) for 48 h. In this study, various redox markers, including glutathione concentrations, antioxidant enzyme activities, total antioxidant capacity, hydrogen peroxide concentrations and lipid peroxidation products, were monitored in brain homogenate samples from honey bees. The results revealed significant changes related to the glutathione system, as indicated by decreases in the GSH/GSSG ratio and GSH concentration in all treatment groups. The activities of the monitored enzymes, such as glucose-6-phosphate dehydrogenase (G6PDH), superoxide dismutase (SOD), and xanthine oxidase (XO), were significantly decreased, highlighting the altered function of the enzymatic antioxidant defense system. Moreover, pronounced lipid peroxidation was detected in the highest-dose group, as indicated by increased malondialdehyde (MDA) levels; however, H₂O₂ levels were unchanged, suggesting the effective activation of ROS-scavenging adaptation mechanisms. The present study provides valuable insights into the molecular mechanisms of deltamethrin toxicity in honey bees, suggesting that redox metabolism is negatively affected. Understanding the exact mechanism of action may contribute to the identification of new possibilities for effective intervention in cellular metabolic processes in the future through the targeted use of novel protective feed additives or other methods, which are of particular importance for animal health as well as for this field of veterinary medicine.

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急性暴露于拟除虫菊酯溴氰菊酯后蜜蜂大脑中的氧化还原代谢中断。

溴氰菊酯是一种广泛使用的拟除虫菊酯类杀虫剂，对蜜蜂大脑的氧化还原稳态有不利影响。包括蜜蜂种群在内的传粉昆虫数量的减少，是一个日益受到全球关注的问题。这一问题造成了严重的生态和经济问题以及兽医和动物健康问题。此外，接触农业农药也是主要因素之一。成年工蜂暴露于三种亚致死浓度的口服溴氰菊酯（1.975、3.95和7.9 ng/只/天）；分别为LD50/40、LD50/20和LD50/10)处理48 h。在本研究中，我们监测了蜜蜂脑匀浆样品中的各种氧化还原标志物，包括谷胱甘肽浓度、抗氧化酶活性、总抗氧化能力、过氧化氢浓度和脂质过氧化产物。结果显示与谷胱甘肽系统相关的显著变化，在所有治疗组中GSH/GSSG比率和GSH浓度均有所下降。葡萄糖-6-磷酸脱氢酶（G6PDH）、超氧化物歧化酶（SOD）和黄嘌呤氧化酶（XO）等酶活性显著降低，表明酶抗氧化防御系统功能发生改变。此外，在最高剂量组检测到明显的脂质过氧化，如丙二醛（MDA）水平升高所示；然而，H2O2水平没有变化，表明活性氧清除的适应机制被有效激活。本研究为溴氰菊酯对蜜蜂毒性的分子机制提供了有价值的见解，表明其氧化还原代谢受到负面影响。了解确切的作用机制可能有助于确定未来通过有针对性地使用新型保护性饲料添加剂或其他方法有效干预细胞代谢过程的新可能性，这对动物健康以及兽医学领域特别重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Scientific Reports Natural Science Disciplines-

CiteScore

7.50

自引率

4.30%

发文量

19567

审稿时长

3.9 months

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