大鼠口服葡萄糖后下丘脑功能的功能磁共振成像和免疫组织化学研究
Functional magnetic resonance imaging and immunohistochemical study of hypothalamic function following oral glucose ingestion in rats.
作者信息
Chen Min, Zhang Tie-Mei, Luo Sen-Lin, Zhou Cheng, Wu Xiao-Meng, Zhou Ni-Na, Cai Kui, Yang Zhen-Han, Wang Wen-Chao, Zhao Wei-Feng, Li Sa-Ying, Wang Zhi, Zhang Yun-Ting, Li Guo-Zhen
机构信息
Department of Radiology, Beijing Hospital, Beijing 100730, China.
出版信息
Chin Med J (Engl). 2007 Jul 20;120(14):1232-5.
BACKGROUND
The hypothalamus plays a central role in the regulation of metabolism by sensing metabolic demands and releasing regulatory neurotransmitters. This study investigated the response of the hypothalamus to glucose ingestion in rats by blood oxygen level-dependent functional magnetic resonance imaging (BOLD-fMRI) and immunohistochemical techniques to determine the role of the hypothalamus in glyco-regulation during disturbances in carbohydrate metabolism.
METHODS
The signal intensity of the hypothalamus was monitored by fMRI for 60 minutes after oral glucose intake in 48 healthy rats (age 14 months), which included 24 normal weight rats (weighing (365 +/- 76.5) g) and 24 overweight rats (weighing (714 +/- 83.5) g). Then, 12 rats (6 normal, 6 overweight) underwent a repeat fMRI scan after consuming an equivalent amount of water without glucose on a separate day. The procedure for fMRI with water intake was the same as for glucose ingestion. fMRI data was processed using time cluster analysis and intensity averaging method. After fMRI, the expression of neuropeptide Y (NPY) and 5-hydroxytryptamine (5-HT) in the hypothalamus of all rats was determined by immunohistochemistry. Positive cells for NPY or 5-HT were counted.
RESULTS
There was a transient, but significant, decrease in fMRI signal intensity in all rats (mean (3.12 +/- 0.78)%) in the hypothalamus within 19.5 - 25.5 minutes of oral glucose ingestion. In overweight rats, the decrease in signal intensity in response to the glucose ingestion was more markedly attenuated than that observed in normal weight rats ((2.2 +/- 1.5)% vs (4.2 +/- 0.7)% inhibition, t = 2.12, P < 0.05). There was no significant response in the hypothalamus after oral water ingestion. The percentage of NPY positive cells in obese rats were slightly lower than those in control group (21% vs 23%, t = 0.71, P > 0.05); but there was no significant difference between the two groups; the percentage of 5-HT positive cells in obese rats were significantly lower than those in the control group (22% vs 31%, t = 3.25, P < 0.01).
CONCLUSIONS
There is a transient, but significant, decrease in BOLD signal intensity in the hypothalamus following glucose ingestion, which is similar to that observed in humans. The response of the hypothalamus to glucose ingestion was different in overweight and normal weight rats. The percentage of NPY positive cells in obese rats were lower than those in the control group, although this difference was not statistically significant. The percentage of 5-HT positive cells in obese rats was significantly lower than those in the control group.
背景
下丘脑通过感知代谢需求并释放调节性神经递质,在代谢调节中发挥核心作用。本研究采用血氧水平依赖性功能磁共振成像(BOLD-fMRI)和免疫组化技术,研究大鼠下丘脑对葡萄糖摄入的反应,以确定下丘脑在碳水化合物代谢紊乱期间糖调节中的作用。
方法
对48只健康大鼠(14月龄)口服葡萄糖后,用fMRI监测下丘脑信号强度60分钟,其中包括24只正常体重大鼠(体重(365±76.5)g)和24只超重大鼠(体重(714±83.5)g)。然后,12只大鼠(6只正常,6只超重)在另一天饮用等量不含葡萄糖的水后进行重复fMRI扫描。饮水fMRI的程序与葡萄糖摄入相同。fMRI数据采用时间聚类分析和强度平均法处理。fMRI后,通过免疫组化法测定所有大鼠下丘脑神经肽Y(NPY)和5-羟色胺(5-HT)的表达。对NPY或5-HT阳性细胞进行计数。
结果
所有大鼠口服葡萄糖后19.5 - 25.5分钟内,下丘脑fMRI信号强度出现短暂但显著下降(平均(3.12±0.78)%)。在超重大鼠中,葡萄糖摄入引起的信号强度下降比正常体重大鼠更明显减弱(抑制率(2.2±1.5)%对(4.2±0.7)%,t = 2.12,P < 0.05)。口服水后下丘脑无明显反应。肥胖大鼠中NPY阳性细胞百分比略低于对照组(21%对23%,t = 0.71,P > 0.05);但两组间无显著差异;肥胖大鼠中5-HT阳性细胞百分比显著低于对照组(22%对31%,t = 3.25,P < 0.01)。
结论
葡萄糖摄入后,下丘脑BOLD信号强度出现短暂但显著下降,这与在人类中观察到的情况相似。超重和正常体重大鼠下丘脑对葡萄糖摄入的反应不同。肥胖大鼠中NPY阳性细胞百分比低于对照组,尽管这种差异无统计学意义。肥胖大鼠中5-HT阳性细胞百分比显著低于对照组。
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