在遗传性肥胖小鼠中,呼吸解耦通过瘦素依赖机制降低血压

C. Bernal‐Mizrachi, Sherry Weng, Bing Li, L. Nolte, Chu Feng, T. Coleman, J. Holloszy, C. Semenkovich
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引用次数: 86

摘要

胰岛素抵抗通常与高血压有关,高血压会导致肥胖和2型糖尿病患者的血管疾病。高血压和胰岛素抵抗之间的联系机制尚不清楚。为了确定呼吸解偶联是否可以预防胰岛素抵抗相关的高血压,我们将骨骼肌中表达解偶联蛋白1 (UCP1)的转基因小鼠与已知血压升高的致命性黄鼠(Ay/a)杂交。尽管增加了食物摄入量,但UCP-Ay/a小鼠的体重比它们的Ay/a幼崽要轻。UCP-Ay/a小鼠的代谢率高于Ay/a小鼠,并且没有损害它们根据温度变化改变氧气消耗的能力,这是一种涉及交感神经系统活动的适应。与非转基因小鼠相比,UCP-Ay/a小鼠的空腹胰岛素、葡萄糖、甘油三酯和胆固醇水平较低,并且对胰岛素更敏感。未配对小鼠的血压、血清瘦素和尿儿茶酚胺水平也较低。与交感神经系统活动无关,低剂量外周瘦素输注增加了UCP-Ay/a小鼠的血压,但对Ay/a幼崽没有影响。这些数据表明,骨骼肌呼吸解耦可以逆转胰岛素抵抗,降低遗传性肥胖患者的血压,而不影响体温调节。数据还表明,解偶联可以降低2型糖尿病患者动脉粥样硬化的风险。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Respiratory Uncoupling Lowers Blood Pressure Through a Leptin-Dependent Mechanism in Genetically Obese Mice
Insulin resistance is commonly associated with hypertension, a condition that causes vascular disease in people with obesity and type 2 diabetes. The mechanisms linking hypertension and insulin resistance are poorly understood. To determine whether respiratory uncoupling can prevent insulin resistance-related hypertension, we crossed transgenic mice expressing uncoupling protein 1 (UCP1) in skeletal muscle with lethal yellow (Ay/a) mice, genetically obese animals known to have elevated blood pressure. Despite increased food intake, UCP-Ay/a mice weighed less than their Ay/a littermates. The metabolic rate was higher in UCP-Ay/a mice than in Ay/a mice and did not impair their ability to alter oxygen consumption in response to temperature changes, an adaptation involving sympathetic nervous system activity. Compared with their nontransgenic littermates, UCP-Ay/a mice had lower fasting insulin, glucose, triglyceride, and cholesterol levels and were more insulin sensitive. Blood pressure, serum leptin, and urinary catecholamine levels were also lower in uncoupled mice. Independent of sympathetic nervous system activity, low-dose peripheral leptin infusion increased blood pressure in UCP-Ay/a mice but not in their Ay/a littermates. These data indicate that skeletal muscle respiratory uncoupling reverses insulin resistance and lowers blood pressure in genetic obesity without affecting thermoregulation. The data also suggest that uncoupling could decrease the risk of atherosclerosis in type 2 diabetes.
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