Pleass R J, Areschoug T, Lindahl G, Woof J M
Department of Molecular and Cellular Pathology, University of Dundee Medical School, Ninewells Hospital, Dundee DD1 9SY, United Kingdom.
J Biol Chem. 2001 Mar 16;276(11):8197-204. doi: 10.1074/jbc.M009396200. Epub 2000 Nov 28.
Certain pathogenic bacteria express surface proteins that bind to the Fc part of human IgA or IgG. These bacterial proteins are important as immunochemical tools and model systems, but their biological function is still unclear. Here, we describe studies of three streptococcal proteins that bind IgA: the Sir22 and Arp4 proteins of Streptococcus pyogenes and the unrelated beta protein of group B streptococcus. Analysis of IgA domain swap and point mutants indicated that two loops at the Calpha2/Calpha3 domain interface are critical for binding of the streptococcal proteins. This region is also used in binding the human IgA receptor CD89, an important mediator of IgA effector function. In agreement with this finding, the three IgA-binding proteins and a 50-residue IgA-binding peptide derived from Sir22 blocked the ability of IgA to bind CD89. Further, the Arp4 protein inhibited the ability of IgA to trigger a neutrophil respiratory burst via CD89. Thus, we have identified residues on IgA-Fc that play a key role in binding of different streptococcal IgA-binding proteins, and we have identified a mechanism by which a bacterial IgA-binding protein may interfere with IgA effector function.
某些致病细菌表达可与人IgA或IgG的Fc部分结合的表面蛋白。这些细菌蛋白作为免疫化学工具和模型系统很重要,但其生物学功能仍不清楚。在此,我们描述了对三种结合IgA的链球菌蛋白的研究:化脓性链球菌的Sir22和Arp4蛋白以及B族链球菌不相关的β蛋白。对IgA结构域交换和点突变体的分析表明,α2/α3结构域界面处的两个环对于链球菌蛋白的结合至关重要。该区域也用于结合人IgA受体CD89,CD89是IgA效应功能的重要介质。与这一发现一致,三种IgA结合蛋白和源自Sir22的50个残基的IgA结合肽阻断了IgA结合CD89的能力。此外,Arp4蛋白抑制了IgA通过CD89触发中性粒细胞呼吸爆发的能力。因此,我们已经确定了IgA-Fc上在不同链球菌IgA结合蛋白结合中起关键作用的残基,并且我们已经确定了一种细菌IgA结合蛋白可能干扰IgA效应功能的机制。
