Immunology. 1976 Nov;31(5):797-802.
Histamine and one of its major catabolites, imidazole acetic acid (ImAA), were selectively chemotactic for human eosinophils, whereas L-histidine and other histamine catabolites including 1,4-methylhistamine, 1-methyl-4-imidazole acetic acid and N-acetylhistamine were inactive in eosinophilotaxis over a large dose range. The dose response for histamine was dependent on the chemotaxis incubation time and the source of eosinophils, although the latter was not clearly associated with particular disease states. When histamine and ImAA were combined the chemotactic response was similar to that obtained when one agent was assayed alone, no additive or synergistic effects being observed. There was cross-deactivation between histamine and ImAA. These experiments suggest that histamine and ImAA activate the same chemotactic recognition mechanism for eosinophils. Thus ImAA joins histamine and the tetrapeptides (ECF-A) as anaphylaxis-associated selective chemoattractants for human eosinophils
组胺及其主要代谢产物之一咪唑乙酸(ImAA)对人嗜酸性粒细胞具有选择性趋化作用,而L-组氨酸和其他组胺代谢产物,包括1,4-甲基组胺、1-甲基-4-咪唑乙酸和N-乙酰组胺,在大剂量范围内对嗜酸性粒细胞趋化作用无活性。组胺的剂量反应取决于趋化作用孵育时间和嗜酸性粒细胞来源,尽管后者与特定疾病状态无明显关联。当组胺和ImAA联合使用时,趋化反应与单独检测一种试剂时相似,未观察到相加或协同作用。组胺和ImAA之间存在交叉失活。这些实验表明,组胺和ImAA激活了相同的嗜酸性粒细胞趋化识别机制。因此,ImAA与组胺和四肽(ECF-A)一样,是与过敏反应相关的人嗜酸性粒细胞选择性趋化因子。