Hepatic mitochondrial alterations and increased oxidative stress in nutritional diabetes-prone Psammomys obesus model.

Experimental Diabetes Research Pub Date : 2012-01-01 Epub Date: 2012-05-17 DOI:10.1155/2012/430176
Saida Bouderba, M Nieves Sanz, Carlos Sánchez-Martín, M Yehia El-Mir, Gloria R Villanueva, Dominique Detaille, E Ahmed Koceïr
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引用次数: 31

Abstract

Mitochondrial dysfunction is considered to be a pivotal component of insulin resistance and associated metabolic diseases. Psammomys obesus is a relevant model of nutritional diabetes since these adult animals exhibit a state of insulin resistance when fed a standard laboratory chow, hypercaloric for them as compared to their natural food. In this context, alterations in bioenergetics were studied. Using liver mitochondria isolated from these rats fed such a diet for 18 weeks, oxygen consumption rates, activities of respiratory complexes, and content in cytochromes were examined. Levels of malondialdehyde (MDA) and gluthatione (GSH) were measured in tissue homogenates. Diabetic Psammomys showed a serious liver deterioration (hepatic mass accretion, lipids accumulation), accompanied by an enhanced oxidative stress (MDA increased, GSH depleted). On the other hand, both ADP-dependent and uncoupled respirations greatly diminished below control values, and the respiratory flux to cytochrome oxydase was mildly lowered. Furthermore, an inhibition of complexes I and III together with an activation of complex II were found. With emergence of oxidative stress, possibly related to a defect in oxidative phosphorylation, some molecular adjustments could contribute to alleviate, at least in part, the deleterious outcomes of insulin resistance in this gerbil species.

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营养性糖尿病易感性肥胖模型肝脏线粒体改变和氧化应激增加
线粒体功能障碍被认为是胰岛素抵抗和相关代谢疾病的关键组成部分。Psammomys obesus是一种与营养性糖尿病相关的模型,因为这些成年动物在喂食标准实验室食物时表现出胰岛素抵抗状态,与它们的天然食物相比,这些食物的热量较高。在此背景下,研究了生物能量学的变化。使用从这些大鼠中分离的肝脏线粒体,喂养18周,检测氧气消耗率、呼吸复合物活性和细胞色素含量。在组织匀浆中测定丙二醛(MDA)和谷胱甘肽(GSH)水平。糖尿病Psammomys表现出严重的肝脏恶化(肝脏肿块增加,脂质积累),并伴有氧化应激增强(MDA增加,GSH减少)。另一方面,adp依赖性和非偶联性呼吸量均大大减少,低于控制值,细胞色素氧化酶的呼吸通量轻度降低。此外,还发现了复合物I和III的抑制以及复合物II的激活。随着氧化应激的出现,可能与氧化磷酸化的缺陷有关,一些分子调节可能有助于减轻,至少部分减轻这种沙鼠胰岛素抵抗的有害结果。
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Experimental Diabetes Research
Experimental Diabetes Research 医学-内分泌学与代谢
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