Evaluation of Immunotoxicity and Oxidative Stress due to in vitro Exposure of Dimethoate in Chicken Lymphocytes

S. Ambwani, T. Ambwani, R. Chauhan
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引用次数: 1

Abstract

Pesticide hazards have been amplified by the sharp rise in their agricultural, industrial and domestic use. Though there is considerable contribution of pesticides in various agriculture, domestic and industrial applications; however, continuous exposure of pesticides even at low dose levels can exert adverse effects on mammalian immune system. Dimethoate is an insecticide and acaricide of moderate mammalian toxicity which is used in housefly control and against a broad range of agricultural insect and mite pests. Present communication reports dimethoate induced immunotoxic effects due to enhanced oxidative stress and down regulation of interleukin (IL) levels in avian lymphocyte cell culture system employing lymphocyte proliferation assay, cytokine assay and oxidative stress assay. There was a marked reduction in B and T cells proliferation in avian lymphocytes due to the exposure of thousand times dilution of No Observable Effect Level (NOEL/103) dose of dimethoate. Cytokine assay revealed significant reduction in IL-1 and IL-2 levels. There was a significant increase in oxidative stress in dimethoate treated cells in comparison with controls cells as revealed by nitric oxide estimation. Thus, from our findings, it is revealed that in vitro exposure of low dose of dimethoate induces significant immunotoxic effects and higher oxidative stress in avian lymphocytes.
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体外暴露乐果对鸡淋巴细胞免疫毒性和氧化应激的评价
农药危害因其农业、工业和家庭使用的急剧增加而被放大。虽然农药在各种农业、家庭和工业应用中有相当大的贡献;然而,即使是低剂量的农药持续暴露也会对哺乳动物的免疫系统产生不利影响。乐果是一种具有中等哺乳动物毒性的杀虫剂和杀螨剂,用于防治家蝇和各种农业害虫。本通讯采用淋巴细胞增殖试验、细胞因子试验和氧化应激试验,报道了乐果在禽淋巴细胞培养系统中由于氧化应激增强和白细胞介素(IL)水平下调而引起的免疫毒性效应。在未观察到效应水平(NOEL/103)稀释1000倍的剂量下,禽淋巴细胞中B细胞和T细胞的增殖明显减少。细胞因子分析显示IL-1和IL-2水平显著降低。一氧化氮估计显示,与对照细胞相比,乐果处理细胞的氧化应激显著增加。因此,我们的研究结果表明,低剂量的乐果在体外暴露可诱导禽类淋巴细胞显著的免疫毒性作用和更高的氧化应激。
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