Protector properties of N-acetylcysteine, melatonin and their compatible use for oxidative damage of rat brain cells with experimental diabetes mellitus type 1

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Abstract

Diabetes mellitus (DM) is the most widespread endocrinological disease which associated with increasing risk of Alzheimer’s disease. Diabetic encephalopathy is one of the most common and serious complications of DM. Molecular mechanisms of diabetic encephalopathy are inves-tigated. An important element in the development of DM1 encephalopathy is the activation of oxidative stress. And determination the levels of “free iron” and 8-oxoguanine are important for evaluation of the effectiveness of diabetic encephalopathy therapy. Purpose of the study. To study the effect of N-acetylcysteine, melatonin and their compatible use on the state of oxidative damage of rat brain cells with experimental DM1. Materials and research methods. Experiments were carried out on male Wistar rats. DM1 was induced by administration of streptozotocin (STZ). Rats with induced DM1 was re-ceiving N-acetylcysteine (NAC, 1500 mg/kg), melatonin (Mel, 10 mg/kg) and a combination during 5 weeks, starting at 15 days after control pathology was reproduced. Euthanasia was implemented by decapitation under thiopental anesthesia (40 mg/kg, intraperitoneally) to col-lect blood and brain of rats. Molecular determined by spectrophotometrically. Levels of “free iron” were determined by electron paramagnetic resonance (EPR) on a computerized EPR-spectrophotometer PE-1307. Results and its discussion. During 7-week experiment, the levels of “free iron” in brain tissue and blood in group of animals with DM1 were significantly higher than corresponding values of control group (by 17-times and by 8-times р< 0,05). Under these conditions, the marker of oxidatively damaged DNA, 8-oxoG, significantly raised in brain of diabetic rats by 3.4 times more than in control group (0.61±0.10 nm/g vs 0.18±0.06 nm/g, р< 0,05). The induction of NAC, Mel, and especially their combination, was accompanied with decrease in “free iron” complexes in brain tissues (by 2.1-8.5-times) and blood (by 1.2-1.4-times) of rats with experimental DM1. 0,05). significant 2.0-fold decrease of 8-oxoG Conclusions. Induction of DM1 contributes to the intensification of oxidation processes, which is accompanied by an increasing in the levels of “free iron” complexes in the tissues of the brain and of experimental Under these conditions, oxidative damage to was observed, as evidenced by increasing in the level of 8-oxoG (p <0.05). The induction of N-acetylcysteine, melatonin, and especially their combination, contributed to the antioxidant protection of rat brain cells with experimental DM1, reducing the level of “free iron” and coun-teracting oxidative DNA damage.
n -乙酰半胱氨酸、褪黑素对实验性1型糖尿病大鼠脑细胞氧化损伤的保护作用及其相容性研究
糖尿病(DM)是最普遍的内分泌疾病,与阿尔茨海默病的风险增加有关。糖尿病性脑病是糖尿病最常见、最严重的并发症之一,本文对糖尿病性脑病的分子机制进行了探讨。DM1脑病发展的一个重要因素是氧化应激的激活。测定游离铁和8-氧鸟嘌呤水平对评价糖尿病脑病治疗效果具有重要意义。研究目的:研究n -乙酰半胱氨酸、褪黑素及其配伍对实验性DM1大鼠脑细胞氧化损伤状态的影响。材料和研究方法。实验在雄性Wistar大鼠身上进行。用链脲佐菌素(STZ)诱导DM1。诱导DM1的大鼠在复制对照病理后第15天开始接受n -乙酰半胱氨酸(NAC, 1500 mg/kg)、褪黑素(Mel, 10 mg/kg)和联合用药5周。大鼠采用硫喷妥钠麻醉(40 mg/kg,腹腔)砍头取血、取脑安乐死。用分光光度法测定分子。在计算机化EPR-分光光度计PE-1307上用电子顺磁共振(EPR)测定“游离铁”水平。结果及其讨论。在7周的试验中,DM1组动物脑组织和血液中的“游离铁”水平显著高于对照组(分别提高了17倍和8倍,p < 0.05)。在这些条件下,糖尿病大鼠脑内氧化损伤DNA标志物8-oxoG显著升高,是对照组的3.4倍(0.61±0.10 nm/g vs 0.18±0.06 nm/g, p < 0.05)。NAC、Mel的诱导,尤其是它们的联合,伴随着DM1大鼠脑组织和血液中“游离铁”复合物的减少(减少2.1-8.5倍)和血液中“游离铁”复合物的减少(减少1.2-1.4倍)。0 05)。8-oxoG显著降低2.0倍。DM1的诱导有助于氧化过程的加剧,这伴随着脑组织中“游离铁”复合物水平的增加,在这些条件下,观察到氧化损伤,8-oxoG水平升高(p <0.05)。n-乙酰半胱氨酸、褪黑素的诱导,尤其是它们的组合,有助于实验性DM1对大鼠脑细胞的抗氧化保护,降低“游离铁”水平,对抗氧化性DNA损伤。
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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