Department of Immunology and Molecular Microbiology, Dental research Institute, Seoul National University School of Dentistry, Seoul 110-749, Korea.
Immune Netw. 2014 Feb;14(1):7-13. doi: 10.4110/in.2014.14.1.7. Epub 2014 Feb 21.
Molecular mimicry is an attractive mechanism for triggering autoimmunity. In this review, we explore the potential role of evolutionary conserved bacterial proteins in the production of autoantibodies with focus on granulomatosis with polyangiitis (GPA) and rheumatoid arthritis (RA). Seven autoantigens characterized in GPA and RA were BLASTed against a bacterial protein database. Of the seven autoantigens, proteinase 3, type II collagen, binding immunoglobulin protein, glucose-6-phosphate isomerase, α-enolase, and heterogeneous nuclear ribonuclear protein have well-conserved bacterial orthologs. Importantly, those bacterial orthologs are also found in human-associated bacteria. The wide distribution of the highly conserved stress proteins or enzymes among the members of the normal flora and common infectious microorganisms raises a new question on how cross-reactive autoantibodies are not produced during the immune response to these bacteria in most healthy people. Understanding the mechanisms that deselect auto-reactive B cell clones during the germinal center reaction to homologous foreign antigens may provide a novel strategy to treat autoimmune diseases.
分子模拟是引发自身免疫的一种有吸引力的机制。在这篇综述中,我们探讨了进化上保守的细菌蛋白在产生自身抗体中的潜在作用,重点关注肉芽肿性多血管炎 (GPA) 和类风湿关节炎 (RA)。将 GPA 和 RA 中特征明确的 7 种自身抗原与细菌蛋白数据库进行 BLAST 分析。在这 7 种自身抗原中,蛋白酶 3、II 型胶原、结合免疫球蛋白蛋白、葡萄糖-6-磷酸异构酶、α-烯醇化酶和异质核核糖核蛋白有很好的保守细菌直系同源物。重要的是,这些细菌直系同源物也存在于与人相关的细菌中。正常菌群和常见感染性微生物成员之间高度保守的应激蛋白或酶的广泛分布提出了一个新问题,即在大多数健康人群对这些细菌的免疫反应中,为什么不会产生交叉反应性自身抗体。了解在生发中心反应中针对同源外来抗原选择自身反应性 B 细胞克隆的机制,可能为治疗自身免疫性疾病提供一种新策略。