Burnett D, Chamba A, Stockley R A, Murphy T F, Hill S L
Lung Immunobiochemical Research Laboratory, General Hospital, Birmingham, UK.
Thorax. 1993 Jun;48(6):638-42. doi: 10.1136/thx.48.6.638.
IgA is the major antibody class in mucosal secretions, yet its biological functions remain poorly understood and its role as an opsonin for neutrophils has been the subject of controversy. It has been reported that treatment of neutrophils with granulocyte-macrophage colony stimulating factor (GM-CSF) induces the cells to phagocytose particles opsonised with IgA. A study was performed to investigate the effects of GM-CSF and IgA opsonisation on the ability of human neutrophils to recognise and phagocytose latex beads coated with the P6 outer membrane protein of Haemophilus influenzae.
Human neutrophils with and without preincubation with 100 pmol/l GM-CSF, were incubated with non-opsonised P6-coated latex beads or beads opsonised with IgA purified from the blood of a bronchiectatic patient with high titres of IgA anti-P6. Phagocytosis was measured by counting internalised beads during microscopic examination.
The phagocytosis of IgA opsonised beads by untreated neutrophils (mean (SE) 2.1 (0.43) beads/cell) was significantly greater than that of non-opsonised beads (mean (SE) 1.3 (0.30) beads/cell). Treatment of neutrophils with GM-CSF resulted in increased phagocytosis of non-opsonised beads (mean (SE) 2.1 (0.39) beads/cell) but opsonisation with IgA increased this further (mean (SE) 3.4 (0.53) beads/cell).
Human neutrophils recognise and phagocytose non-opsonised particles coated with bacterial antigen. Antibodies of the IgA isotype opsonise for neutrophil phagocytosis of particles coated with bacterial antigen but this behaviour is enhanced, in an additive fashion, by treatment of the cells with GM-CSF. The results suggest that IgA and GM-CSF are important cofactors for neutrophil recognition and elimination of bacterial pathogens.
免疫球蛋白A(IgA)是黏膜分泌物中的主要抗体类别,但其生物学功能仍知之甚少,并且其作为中性粒细胞调理素的作用一直存在争议。据报道,用粒细胞-巨噬细胞集落刺激因子(GM-CSF)处理中性粒细胞可诱导细胞吞噬被IgA调理的颗粒。本研究旨在调查GM-CSF和IgA调理对人中性粒细胞识别和吞噬包被有流感嗜血杆菌P6外膜蛋白的乳胶珠能力的影响。
将预先用100 pmol/L GM-CSF孵育和未孵育的人中性粒细胞,与未调理的包被P6的乳胶珠或用从一名IgA抗P6滴度高的支气管扩张症患者血液中纯化的IgA调理的珠子一起孵育。通过在显微镜检查时计数内化的珠子来测量吞噬作用。
未处理的中性粒细胞对IgA调理珠子的吞噬作用(平均值(标准误)为2.1(0.43)个珠子/细胞)显著大于未调理珠子的吞噬作用(平均值(标准误)为1.3(0.30)个珠子/细胞)。用GM-CSF处理中性粒细胞导致未调理珠子的吞噬作用增加(平均值(标准误)为2.1(0.39)个珠子/细胞),但用IgA调理可使其进一步增加(平均值(标准误)为3.4(0.53)个珠子/细胞)。
人中性粒细胞能够识别并吞噬包被有细菌抗原的未调理颗粒。IgA同种型抗体可调理中性粒细胞对包被有细菌抗原颗粒的吞噬作用,但通过用GM-CSF处理细胞,这种行为以累加方式得到增强。结果表明,IgA和GM-CSF是中性粒细胞识别和清除细菌病原体的重要辅助因子。
