Mencia-Huerta J M, Razin E, Ringel E W, Corey E J, Hoover D, Austen K F, Lewis R A
J Immunol. 1983 Apr;130(4):1885-90.
Mouse bone marrow-derived mast cells differentiated in vitro and sensitized with monoclonal IgE respond to antigen-initiated activation-secretion with the generation of leukotriene B4 (LTB4), a highly potent chemotactic factor. The antigen-initiated net percent release of the secretory granule marker beta-hexosaminidase and the generation of immunoreactive LTB4 and of immunoreactive leukotriene C4 (LTC4) were not diminished by washing the cells before challenge, indicating that interaction of the antigen occurred with the IgE fixed on cell membranes and was not due to phagocytosis of immune complexes formed in the fluid phase. The parallel dose-response relationship for the antigen-induced release of the performed mediator and the generation of both leukotrienes along with the superimposable time courses of their extracellular appearance indicate the origin of these mediators from a common cell type with IgE receptors. Resolution by reverse phase-high performance liquid chromatography (RP-HPLC) of the leukotrienes released from unsensitized cells by ionophore A23187 and from sensitized cells by the specific antigen revealed that the generation of LTB4 was accompanied by the production of the two diastereoisomers of 6-trans-LTB4, which were not immunoreactive. The immunoreactive LTB4 eluted from RP-HPLC at the same retention time as synthetic LTB4 was present in similar nanogram quantities when measured by either radioimmunoassay or integrated absorbance at 269 nm and exhibited a chemotactic activity for human neutrophils on a weight basis comparable to that of synthetic LTB4. The overall recoveries after RP-HPLC of immunoreactive LTB4 released from ionophore A23187-activated, bone marrow-derived mast cells and of added tritiated synthetic LTB4 in separate experiments with ionophore-activated cells were comparable and greater than 78%. The maximum generation of LTB4 by ionophore A23187-activated cells of 7.9 +/- 2.5 ng/10(6) cells (mean +/- SD), occurring at 40 min, was greater than the maximum generation of 4.5 +/- 0.8 ng/10(6) cells, with immunologic stimulation occurring 5 min after antigen challenge of sensitized cells. The initial rate of LTB4 generation after perturbation of the IgE-Fc receptors, however, exceeded that following ionophore A23187 stimulation and may represent one important variable in establishing a significant chemotactic gradient.
体外分化并用单克隆IgE致敏的小鼠骨髓源性肥大细胞,对抗原引发的激活-分泌反应会生成白三烯B4(LTB4),这是一种高效的趋化因子。在激发前洗涤细胞,并不会降低抗原引发的分泌颗粒标志物β-己糖胺酶的净释放百分比,以及免疫反应性LTB4和免疫反应性白三烯C4(LTC4)的生成,这表明抗原与固定在细胞膜上的IgE发生了相互作用,而非液相中形成的免疫复合物的吞噬作用所致。抗原诱导的预存介质释放与两种白三烯生成之间的平行剂量反应关系,以及它们细胞外出现的叠加时间进程,表明这些介质源自具有IgE受体的同一细胞类型。通过反相高效液相色谱(RP-HPLC)对离子载体A23187刺激未致敏细胞释放的白三烯,以及特异性抗原刺激致敏细胞释放的白三烯进行分离,结果显示LTB4的生成伴随着6-反式-LTB4两种非对映异构体的产生,它们没有免疫反应性。从RP-HPLC洗脱的免疫反应性LTB4与合成LTB4在相同保留时间出现,通过放射免疫测定或269nm处的积分吸光度测量时,其含量以纳克计相似,并且在重量基础上对人中性粒细胞表现出与合成LTB4相当的趋化活性。在单独的离子载体激活细胞实验中,RP-HPLC后从离子载体A23187激活的骨髓源性肥大细胞释放的免疫反应性LTB4以及添加的氚化合成LTB4的总体回收率相当,且大于78%。离子载体A23187激活的细胞在40分钟时LTB4的最大生成量为7.9±2.5 ng/10(6)个细胞(平均值±标准差),大于致敏细胞经抗原激发5分钟后免疫刺激产生的最大生成量4.5±0.8 ng/10(6)个细胞。然而,IgE-Fc受体受扰动后LTB4生成的初始速率超过了离子载体A23187刺激后的速率,这可能是建立显著趋化梯度的一个重要变量。
