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2型糖尿病大鼠的肾脏疾病与肾脏一氧化氮生成减少有关。

Renal disease in rats with type 2 diabetes is associated with decreased renal nitric oxide production.

作者信息

Erdely A, Freshour G, Maddox D A, Olson J L, Samsell L, Baylis C

机构信息

Department of Physiology, West Virginia University, Morgantown, West Virginia, USA.

出版信息

Diabetologia. 2004 Oct;47(10):1672-6. doi: 10.1007/s00125-004-1509-1. Epub 2004 Oct 13.

DOI:10.1007/s00125-004-1509-1
PMID:15490111
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2765212/
Abstract

AIMS/HYPOTHESIS: In several other models of chronic renal disease, decreases in renal nitric oxide activity and nitric oxide synthase (NOS) protein abundance have been demonstrated. Here, we studied diabetic obese Zucker (ZDF Gmi fa/fa) rats that develop severe hyperglycaemia and renal disease, together with their lean control animals, to determine if renal nitric oxide deficiency also occurs in this model.

METHODS

Obese Zucker rats aged 10 to 12 weeks were maintained on Purina 5008 diet until 4, 8, or 11 months of age and compared with similarly maintained, 4- and 11-month-old lean Zucker rats. NOS activity and abundance of endothelial NOS (eNOS) and neuronal NOS (nNOS) were measured on homogenates of kidney cortex. Blood was analysed for glucose, lipids, creatinine, and blood urea nitrogen and kidney tissue was obtained for histology.

RESULTS

Obese rats exhibited severe hyperglycaemia from 4 months of age and developed increasing hyperlipidaemia, proteinuria, and decreasing renal function with age compared to lean counterparts. At 4 months cortical NOS activity and nNOS abundance were lower in obese rats than in lean ones. At 11 months NOS activity remained depressed and nNOS abundance had declined further in obese rats. Glomerulosclerosis in the obese rats was mild at 4 months, becoming severe by 11 months. Lean rats had only mild age-dependent increases in glomerular injury.

CONCLUSIONS/INTERPRETATION: The chronic renal disease that occurs in hyperglycaemic, obese Zucker rats is associated with decreased renal cortical nitric oxide production and increasing renal injury, although the changes do not resemble those of diabetic nephropathy in man.

摘要

目的/假设:在其他几种慢性肾病模型中,已证实肾一氧化氮活性降低以及一氧化氮合酶(NOS)蛋白丰度下降。在此,我们研究了患有严重高血糖和肾病的糖尿病肥胖 Zucker(ZDF Gmi fa/fa)大鼠及其瘦型对照动物,以确定该模型中是否也存在肾一氧化氮缺乏。

方法

10至12周龄的肥胖 Zucker 大鼠维持食用普瑞纳5008饲料直至4、8或11月龄,并与同样饲养的4月龄和11月龄瘦型 Zucker 大鼠进行比较。在肾皮质匀浆上测量 NOS 活性以及内皮型 NOS(eNOS)和神经元型 NOS(nNOS)的丰度。分析血液中的葡萄糖、脂质、肌酐和血尿素氮,并获取肾组织用于组织学检查。

结果

与瘦型大鼠相比肥胖大鼠从4月龄开始出现严重高血糖,并随着年龄增长出现高脂血症、蛋白尿增加以及肾功能下降。4月龄时肥胖大鼠的皮质 NOS 活性和 nNOS 丰度低于瘦型大鼠。11月龄时肥胖大鼠的 NOS 活性仍然降低,nNOS 丰度进一步下降。肥胖大鼠的肾小球硬化在4月龄时较轻,到11月龄时变得严重。瘦型大鼠仅出现轻度的与年龄相关的肾小球损伤增加。

结论/解读:高血糖肥胖 Zucker 大鼠发生的慢性肾病与肾皮质一氧化氮生成减少以及肾损伤增加有关,尽管这些变化与人类糖尿病肾病不同。

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