Wei Feng Wang, Yun Sheng Yang, Li Hua Peng, Gang Sun
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引用次数: 15
Abstract
Objective: Irritable bowel syndrome (IBS) is a common disorder in clinical practice, but the pathophysiology of IBS has not been completely elucidated yet. Experiments have revealed that the concentrations of some kinds of brain-gut peptides, such as substance P, were abnormal in the plasma and/or the intestinal mucosa. In order to explore further the possible role of substance P containing nerve fibers in the enteric nervous system and central nervous system, the expression of c-fos, a well-established marker of activated neural pathway, was induced to show substance P containing a neural pathway in the rat model of constipation-predominant IBS by rectal distention.
Methods: The rat model was set up by intragastric instillation of 2.0 mL water at 0-4 degrees C in 20 male Wistar rats for two weeks. Both the model group and the controls underwent rectal distention under deep anesthesia. Sections containing the anatomical areas of interest were obtained and processed for c-fos protein and substance P immunohistochemistry using the strept avidin-biotin complex (SABC) method. The staining results were analyzed semi-quantitatively, using a computerized color image analyzer with two parameters: opacity density and immunoreactive areas. The statistical difference of the opacity density and immunoreactive areas between the two groups was analyzed by a t-test. Correlation analysis was used to investigate the relationship between the expression of substance P and c-fos protein of the same region in the model group.
Results: The opacity density of substance P immunoreactive tissues in the ileocecal junction, colon, the posterior horn of the spinal cord and the hypothalamus of the model group were all significantly higher compared with those in the control group (176.6 vs 155.5, 172.3 vs 152.0, 182.1 vs 160.2, 128.3 vs 117.9; P < 0.05, respectively). Meanwhile in the ileocecal junction, colon, the posterior horn of the spinal cord and the hypothalamus of the model group, the opacity density of c-fos protein-positive tissue were all significantly higher than those of the same region in the controls (120.9 vs 109.0, 101.3 vs 92.2, 125.4 vs 88.7, 115.5 vs 88.6; P < 0.05, respectively). The distribution of c-fos protein-positive tissue is similar to that of the substance P and the analysis shows that there is close correlation between the expression of substance P and c-fos protein of the same region in the model group (r = 0.594-0.721, P < 0.05).
Conclusions: The expression of substance P and c-fos protein in both the enteric nervous system and the central nervous system of the constipation-predominant IBS rat model is abnormal, which suggests that an abnormal change in substance P may be involved in the pathogenesis of IBS and the substance P-containing neural pathway may be one of the neural pathways that play important role in the regulation of the gastrointestinal function.
目的:肠易激综合征(Irritable bowel syndrome, IBS)是临床常见病,但其病理生理机制尚未完全阐明。实验表明,血浆和/或肠粘膜中某些脑肠肽如P物质的浓度异常。为了进一步探讨含P物质神经纤维在肠神经系统和中枢神经系统中的可能作用,我们在便秘型肠易激综合征大鼠模型中,通过诱导已被证实的神经通路激活标志物c-fos的表达,显示含P物质神经通路。方法:20只雄性Wistar大鼠0 ~ 4℃灌胃2.0 mL水,连续2周建立大鼠模型。模型组和对照组均在深度麻醉下进行直肠扩张。获得包含感兴趣解剖区域的切片,并使用链球菌亲和素-生物素复合物(SABC)方法对c-fos蛋白和P物质进行免疫组织化学处理。染色结果半定量分析,使用计算机彩色图像分析仪两个参数:不透明密度和免疫反应区。两组间不透明密度及免疫反应面积的统计学差异采用t检验。采用相关分析探讨模型组P物质与同一区域c-fos蛋白表达的关系。结果:模型组大鼠回盲结、结肠、脊髓后角、下丘脑P物质免疫反应组织不透明密度均显著高于对照组(176.6 vs 155.5、172.3 vs 152.0、182.1 vs 160.2、128.3 vs 117.9;P < 0.05)。同时,模型组回盲结、结肠、脊髓后角、下丘脑c-fos蛋白阳性组织的不透明密度均显著高于对照组(120.9 vs 109.0, 101.3 vs 92.2, 125.4 vs 88.7, 115.5 vs 88.6;P < 0.05)。c-fos蛋白阳性组织的分布与P物质相似,分析显示模型组P物质与同一区域c-fos蛋白表达密切相关(r = 0.594-0.721, P < 0.05)。结论:便秘型IBS大鼠肠神经系统和中枢神经系统P物质和c-fos蛋白表达异常,提示P物质异常改变可能参与了IBS的发病机制,含P物质神经通路可能是调节胃肠功能的重要神经通路之一。