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综合生物标志物反应:强调涕灭威对斯普拉格-道利大鼠诱导的神经元氧化应激和遗传毒性——人参作为神经保护剂的改善作用

Integrated Biomarker Response Emphasizing Neuronal Oxidative Stress and Genotoxicity Induced by Oxamyl in Sprague Dawley Rats: Ameliorative Effect of Ginseng as a Neuroprotective Agent.

作者信息

Abdallah Salwa M, Muhammed Reham E, Mohamed Reda E, Khalil Wagdy K B, Taha Dalia A, Shalaby Mohamed B, Elgohary Islam, Abdallah Amr A, Habib Hosam M, El-Yazbi Ahmed F

机构信息

Center of Excellence for Toxicological Testing, Department of Mammalian and Aquatic Toxicology, Central Agricultural Pesticides Lab (CAPL), Agricultural Research Center (ARC), Dokki, Giza 12618, Egypt.

Department of Cell Biology, National Research Centre, El-Bohouth, Cairo 12262, Egypt.

出版信息

Toxics. 2024 Sep 7;12(9):655. doi: 10.3390/toxics12090655.

DOI:10.3390/toxics12090655
PMID:39330583
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11435561/
Abstract

Climate change has led to increased and varying pest infestation patterns, triggering a rise in pesticide usage and exposure. The effects of oxamyl, a widely used nematicide in Egypt, encompasses typical signs of carbamate intoxication; nevertheless, long-term effects of oxamyl exposure, particularly on the nervous system, require further elucidation. This study systematically investigated the mechanism and manifestations of repeated subacute exposure to sublethal doses of oxamyl in male SD rats. Data showed a dose-dependent genotoxic effect, manifested as increased bone marrow micronuclei and decreased brain expression of key genes involved in neurogenesis and neuronal development. Coincidently, brain histopathology showed dose-dependent neurodegeneration in various regions, associated with a significant increase in GFAP immunoreactivity, indicative of neuroinflammation. Biochemical examination revealed a typical pattern of cholinesterase inhibition by carbamates in serum and brain tissue, as well as increased oxidative stress markers in the brain such as SOD activity reduction, alongside an increase in NO and MDA. The ability of Ginseng at a 100 mg/Kg dose to ameliorate the effects of oxamyl exposure was investigated. Ginseng use, either as a protective or therapeutic regimen, attenuated the observed genotoxic, neuroinflammatory, and biochemical alterations. Our results indicate that repeated exposure to oxamyl triggers an integrative neurotoxic response, driven by genotoxicity, oxidative stress, and neuroinflammation, that could trigger an increase in neurological and cognitive disorders. These findings emphasize the urgent need for confirmatory translational studies in human subjects to assess these changes and inform policy decisions regarding safe levels of usage and appropriate agricultural and public health practices.

摘要

气候变化导致害虫侵扰模式增加且变化多样,引发了农药使用量和接触量的上升。氧乐果是埃及广泛使用的杀线虫剂,其影响包括氨基甲酸酯中毒的典型症状;然而,氧乐果接触的长期影响,尤其是对神经系统的影响,仍需进一步阐明。本研究系统地调查了雄性SD大鼠重复亚急性接触亚致死剂量氧乐果的机制和表现。数据显示出剂量依赖性的遗传毒性效应,表现为骨髓微核增加以及参与神经发生和神经元发育的关键基因在大脑中的表达降低。巧合的是,脑组织病理学显示不同区域存在剂量依赖性神经退行性变,伴有胶质纤维酸性蛋白(GFAP)免疫反应性显著增加,表明存在神经炎症。生化检查揭示了血清和脑组织中氨基甲酸酯对胆碱酯酶抑制的典型模式,以及大脑中氧化应激标志物增加,如超氧化物歧化酶(SOD)活性降低,同时一氧化氮(NO)和丙二醛(MDA)增加。研究了100mg/Kg剂量人参改善氧乐果接触影响的能力。人参作为一种预防或治疗方案,减轻了所观察到的遗传毒性、神经炎症和生化改变。我们的结果表明,重复接触氧乐果会引发由遗传毒性、氧化应激和神经炎症驱动的综合神经毒性反应,这可能会导致神经和认知障碍增加。这些发现强调迫切需要在人类受试者中进行验证性转化研究,以评估这些变化,并为关于安全使用水平以及适当农业和公共卫生实践的政策决策提供依据。

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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2c3c/11435561/3f6e53f1ec54/toxics-12-00655-g010.jpg

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