Capron M, Jouault T, Prin L, Joseph M, Ameisen J C, Butterworth A E, Papin J P, Kusnierz J P, Capron A
J Exp Med. 1986 Jul 1;164(1):72-89. doi: 10.1084/jem.164.1.72.
An IgM mAb (BB10) was produced by immunization of mice with human eosinophils purified according to their abnormal low density ("hypodense" cells), and previously shown to exhibit increased IgE-dependent antiparasite cytotoxicity. This BB10 antibody, selected for positive fluorescence staining of hypodense blood or lung eosinophils and low or negative staining of normodense eosinophils or neutrophils, could strongly inhibit IgE-dependent cytotoxicity of human eosinophils and platelets. The specificity for the IgE Fc receptor was suggested by the high levels of inhibition of IgE rosettes formed by eosinophils after incubation with the purified IgM fraction of BB10, whereas other receptors (Fc gamma R, CR1) were not affected. On the other hand, BB10, able to inhibit rat eosinophil Fc epsilon R, did not react with the IgE Fc receptor on mast cells or basophils. A technique using radioiodinated BB10 allowed us to quantify the specific binding of BB10 to human eosinophils and platelets. Competition experiments revealed a crossinhibition between the binding of BB10 and IgE, suggesting the specificity of BB10 for the IgE binding site of eosinophil, platelet, and monocyte Fc epsilon R. Three proteins having extrapolated Mr of 32,000, 43,000-45,000, and 97,000 were found in the platelet extract eluted from a BB10 or from an IgE immunosorbent column. These findings confirm the similarities between IgE Fc receptors on human eosinophils, platelets, and macrophages, already observed with polyclonal antibodies directed against the B lymphocyte Fc epsilon receptor. They suggest, moreover, that the mAb BB10 can represent a good reagent for further investigations on the structure and the functions of this IgE Fc receptor (Fc epsilon R2).
通过用根据其异常低密度纯化的人嗜酸性粒细胞(“低密度”细胞)免疫小鼠,制备了一种IgM单克隆抗体(BB10),该抗体先前已显示出增强的IgE依赖性抗寄生虫细胞毒性。这种BB10抗体被选用于低密度血液或肺嗜酸性粒细胞的阳性荧光染色以及正常密度嗜酸性粒细胞或中性粒细胞的低染色或阴性染色,它能强烈抑制人嗜酸性粒细胞和血小板的IgE依赖性细胞毒性。与纯化的BB10 IgM组分孵育后,嗜酸性粒细胞形成的IgE玫瑰花结受到高度抑制,提示其对IgE Fc受体具有特异性,而其他受体(FcγR、CR1)未受影响。另一方面,能够抑制大鼠嗜酸性粒细胞FcεR的BB10,不与肥大细胞或嗜碱性粒细胞上的IgE Fc受体反应。使用放射性碘化BB10的技术使我们能够定量BB10与人嗜酸性粒细胞和血小板的特异性结合。竞争实验揭示了BB10与IgE结合之间的交叉抑制,表明BB10对嗜酸性粒细胞、血小板和单核细胞FcεR的IgE结合位点具有特异性。在从BB10或IgE免疫吸附柱洗脱的血小板提取物中发现了三种推断分子量分别为32000、43000 - 45000和97000的蛋白质。这些发现证实了人嗜酸性粒细胞、血小板和巨噬细胞上IgE Fc受体之间的相似性,这在针对B淋巴细胞Fcε受体的多克隆抗体中已经观察到。此外,它们表明单克隆抗体BB10可以作为进一步研究这种IgE Fc受体(FcεR2)结构和功能的良好试剂。