Sullivant Alyssa, Mackin Andrew, Pharr Todd, Cooley Jim, Wills Robert, Archer Todd
Departments of Clinical Sciences, Mississippi State University College of Veterinary Medicine, 240 Wise Center Drive, MS, MS 39762, United States.
Basic Sciences, Mississippi State University College of Veterinary Medicine, 240 Wise Center Drive, MS, MS 39762, United States.
Vet Immunol Immunopathol. 2016 Dec;182:29-36. doi: 10.1016/j.vetimm.2016.09.010. Epub 2016 Sep 23.
The important role of histamine in chronic gastrointestinal diseases has been increasingly recognized over the last two decades in human medicine. Histamine is released following mast cell activation and exerts its action through binding to four different histamine receptors (H1, H2, H3, and H4). Histamine receptors are dispersed throughout the body, and each different receptor mediates a unique response. Documentation of the presence and type of histamine receptors in the differing sections of the canine gastrointestinal tract will provide additional research opportunities to further explore the role of histamine and its receptors in chronic canine enteropathies, as well as potential therapeutic options. Full thickness gastric, duodenal, jejunal, ileal, and colonic biopsies were obtained from 6 clinically normal adult dogs immediately after humane euthanasia. Commercially available histamine receptor antibodies predicted to react with canine tissues were applied to paraffin-embedded tissue sections using standard immunohistochemistry techniques to identify different histamine receptors. Staining intensity was graded from negative to strong, and the specificity of each antibody was evaluated with western blot. The presence and distribution of histamine receptors varied by anatomic site and histologic level within sections of the canine gastrointestinal tract. All 4 histamine receptors were readily identified, although the distribution of H4 receptors was decreased in comparison to the other histamine receptors. The distribution of the various histamine receptors was similar to that seen in the normal human gastrointestinal tract. H1 receptors were located in the stomach, lymphoid tissue of the ileum and colon, and the smooth muscle and ganglia of all sections. H2 receptors were located in all sections of the gastrointestinal tract, with greatest staining intensity in the gastric mucosa. H3 receptors were located in the stomach and colonic mucosa, smooth muscle and ganglia of all sections, and ileal and colonic lymphoid tissue. H4 receptors were located in the ganglia and smooth muscle of the gastrointestinal tract, as well as the gastric and colonic mucosal and ileal lymphoid tissue. Western blot demonstrated both specific and non-specific staining with the H1 and H3 receptor antibody, but good specificity with the H4 receptor antibody. The H2 receptor antibody was not compatible with western blot techniques, despite excellent immunohistochemical specificity and consistency. Further studies to compare the density and distribution of the various histamine receptors in dogs with gastrointestinal disease are warranted.
在过去二十年的人类医学中,组胺在慢性胃肠疾病中的重要作用已得到越来越多的认可。组胺在肥大细胞激活后释放,并通过与四种不同的组胺受体(H1、H2、H3和H4)结合发挥作用。组胺受体遍布全身,每种不同的受体介导独特的反应。记录犬胃肠道不同部位组胺受体的存在和类型,将为进一步探索组胺及其受体在慢性犬肠道疾病中的作用以及潜在治疗选择提供更多研究机会。在人道安乐死后,立即从6只临床正常的成年犬获取全层胃、十二指肠、空肠、回肠和结肠活检组织。使用标准免疫组织化学技术,将预计与犬组织反应的市售组胺受体抗体应用于石蜡包埋的组织切片,以识别不同的组胺受体。染色强度从阴性到强进行分级,并用蛋白质印迹法评估每种抗体的特异性。组胺受体的存在和分布因犬胃肠道各节段的解剖部位和组织学水平而异。所有4种组胺受体均易于识别,尽管与其他组胺受体相比,H4受体的分布有所减少。各种组胺受体的分布与正常人类胃肠道中的分布相似。H1受体位于胃、回肠和结肠的淋巴组织以及所有节段的平滑肌和神经节中。H2受体位于胃肠道的所有节段,在胃黏膜中的染色强度最大。H3受体位于胃和结肠黏膜、所有节段的平滑肌和神经节以及回肠和结肠淋巴组织中。H4受体位于胃肠道的神经节和平滑肌以及胃和结肠黏膜及回肠淋巴组织中。蛋白质印迹法显示H1和H3受体抗体存在特异性和非特异性染色,但H4受体抗体具有良好的特异性。尽管H2受体抗体具有出色的免疫组织化学特异性和一致性,但与蛋白质印迹技术不兼容。有必要进行进一步研究,以比较患有胃肠疾病的犬中各种组胺受体的密度和分布。
