缺血性海马细胞死亡通过减弱葡萄糖刺激的胰岛素分泌来导致血糖失调，而高脂肪饮食会加剧这种情况。

Ischemic hippocampal cell death induces glucose dysregulation by attenuating glucose-stimulated insulin secretion which is exacerbated by a high fat diet.

机构信息

Dept. of Food & Nutrition, College of Natural Science, Obesity/Diabetes Research Institutes, Hoseo University, 165 Sechul-Ri, BaeBang-Yup, Asan-Si, ChungNam-Do, South Korea.

出版信息

Life Sci. 2011 Apr 25;88(17-18):766-73. doi: 10.1016/j.lfs.2011.02.021. Epub 2011 Feb 26.

DOI:10.1016/j.lfs.2011.02.021

PMID:21362432

Abstract

AIMS

Diabetes increases the chances of stroke and the stroke itself is thought to induce hyperglycemia and diabetes. However, this latter contention remains uncorroborated. We investigated whether ischemic hippocampal neuronal cell death induces glucose dysregulation by modulating insulin resistance, glucose-stimulated insulin secretion, and β-cell mass in Mongolian gerbils fed either a high fat or low fat diet.

MAIN METHODS

Gerbils were subjected to either an occlusion of the bilateral common carotid arteries for 8 mins to render them ischemic, or a sham operation. Ischemic gerbils were fed either an 11% fat diet (LFD) or a 40% fat diet (HFD) for 7, 14 or 28 days.

KEY FINDINGS

Artery occlusion resulted in a 70% or greater initial reduction in hippocampal CA1 neurons and only HFD decreased the percentage of CA1 neurons as the ischemic periods became longer. Oral glucose tolerance test (OGTT) results revealed that ischemia induced glucose intolerance, and longer ischemic periods and HFD exacerbated this glucose intolerance in ischemic gerbils. Insulin secretion during the OGTT was lower in ischemic gerbils than sham gerbils and the decrease was greatest in the 28 day-HFD among all the groups. Insulin resistance was elevated the most in 28 day-HFD ischemic gerbils. There was a progressive loss of pancreatic β-cell mass as the post-ischemic time period increased as consequence of HFD; the decrease being caused by increased apoptosis. This increase in apoptosis was partly associated with increased serum levels of IL-1β, TNF-α and non-esterified fatty acids.

SIGNIFICANCE

Hippocampal neuronal cell death deteriorates glucose homeostasis initially through the modulation of insulin secretion and also causes a decrease in β-cell mass while HFD negatively impacts glucose regulation.

摘要

目的

糖尿病增加中风的几率，而中风本身被认为会引起高血糖和糖尿病。然而，这一说法尚未得到证实。我们研究了缺血性海马神经元细胞死亡是否通过调节胰岛素抵抗、葡萄糖刺激的胰岛素分泌和β细胞质量，导致高脂或低脂饮食喂养的蒙古沙鼠血糖失调。

主要方法

沙鼠接受双侧颈总动脉闭塞 8 分钟，使其缺血，或假手术。缺血性沙鼠分别喂食 11%脂肪饮食（LFD）或 40%脂肪饮食（HFD）7、14 或 28 天。

主要发现

动脉闭塞导致海马 CA1 神经元初始减少 70%以上，只有 HFD 在缺血时间延长时降低 CA1 神经元的百分比。口服葡萄糖耐量试验（OGTT）结果显示，缺血导致葡萄糖耐量下降，较长的缺血时间和 HFD 使缺血性沙鼠的葡萄糖耐量恶化。与假手术组相比，缺血性沙鼠的 OGTT 期间胰岛素分泌降低，而在所有组中，28 天 HFD 组下降最大。与其他组相比，28 天 HFD 缺血性沙鼠的胰岛素抵抗升高最多。由于 HFD，随着缺血后时间的延长，胰岛β细胞质量逐渐减少，凋亡增加导致β细胞质量减少。这种凋亡增加部分与血清中白细胞介素 1β、肿瘤坏死因子-α和非酯化脂肪酸水平升高有关。

意义

海马神经元细胞死亡最初通过调节胰岛素分泌来恶化血糖稳态，同时也导致β细胞质量减少，而 HFD 对葡萄糖调节产生负面影响。

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缺血性海马细胞死亡通过减弱葡萄糖刺激的胰岛素分泌来导致血糖失调，而高脂肪饮食会加剧这种情况。

Ischemic hippocampal cell death induces glucose dysregulation by attenuating glucose-stimulated insulin secretion which is exacerbated by a high fat diet.

机构信息

出版信息

AIMS

MAIN METHODS

KEY FINDINGS

SIGNIFICANCE

目的

主要方法

主要发现

意义

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