自闭症儿童原发性免疫细胞的细胞内和细胞外氧化还原状态和自由基生成。

Autism Research and Treatment Pub Date : 2012-01-01 Epub Date: 2011-11-24 DOI:10.1155/2012/986519
Shannon Rose, Stepan Melnyk, Timothy A Trusty, Oleksandra Pavliv, Lisa Seidel, Jingyun Li, Todd Nick, S Jill James
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引用次数: 83

摘要

氧化还原微环境的调节是免疫细胞活化和增殖的重要调节因子。为了研究自闭症患者的免疫细胞氧化还原状态,我们定量测定了43例自闭症儿童和41例同龄对照儿童静息外周血单核细胞(PBMCs)、活化单核细胞和CD4 T细胞中细胞内谷胱甘肽氧化还原对(GSH/GSSG)和血浆中细胞外半胱氨酸/胱氨酸氧化还原对。自闭症儿童静息PBMCs和活化单核细胞表现出更高的氧化谷胱甘肽(GSSG)和氧化谷胱甘肽当量百分比,以及降低的谷胱甘肽氧化还原状态(GSH/GSSG)。在自闭症儿童激活的CD4 T细胞中,氧化谷胱甘肽当量的百分比同样增加,GSH和GSH/GSSG降低。在血浆中,与对照组相比,自闭症儿童谷胱甘肽和半胱氨酸氧化还原比均降低。与细胞内和细胞外氧化还原状态下降一致,自闭症儿童淋巴细胞中自由基的产生显著升高。这些数据表明,与对照组儿童相比,自闭症儿童的初级免疫细胞在细胞内和细胞外微环境中氧化程度更高,并且在谷胱甘肽介导的氧化还原/抗氧化能力方面存在缺陷。这些结果表明,谷胱甘肽氧化还原稳态的丧失和慢性氧化应激可能导致自闭症患者的免疫失调。
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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Intracellular and extracellular redox status and free radical generation in primary immune cells from children with autism.

The modulation of the redox microenvironment is an important regulator of immune cell activation and proliferation. To investigate immune cell redox status in autism we quantified the intracellular glutathione redox couple (GSH/GSSG) in resting peripheral blood mononuclear cells (PBMCs), activated monocytes and CD4 T cells and the extracellular cysteine/cystine redox couple in the plasma from 43 children with autism and 41 age-matched control children. Resting PBMCs and activated monocytes from children with autism exhibited significantly higher oxidized glutathione (GSSG) and percent oxidized glutathione equivalents and decreased glutathione redox status (GSH/GSSG). In activated CD4 T cells from children with autism, the percent oxidized glutathione equivalents were similarly increased, and GSH and GSH/GSSG were decreased. In the plasma, both glutathione and cysteine redox ratios were decreased in autistic compared to control children. Consistent with decreased intracellular and extracellular redox status, generation of free radicals was significantly elevated in lymphocytes from the autistic children. These data indicate primary immune cells from autistic children have a more oxidized intracellular and extracellular microenvironment and a deficit in glutathione-mediated redox/antioxidant capacity compared to control children. These results suggest that the loss of glutathione redox homeostasis and chronic oxidative stress may contribute to immune dysregulation in autism.

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