IgA肾病之谜。

IgA nephropathy enigma.

作者信息

Mestecky Jiri, Novak Jan, Moldoveanu Zina, Raska Milan

机构信息

University of Alabama at Birmingham, Department of Microbiology, Birmingham, AL, USA; First School of Medicine, Department of Immunology and Microbiology, Charles University, Prague, Czech Republic; Czech Academy of Sciences, Institute of Microbiology, Prague, Czech Republic.

University of Alabama at Birmingham, Department of Microbiology, Birmingham, AL, USA.

出版信息

Clin Immunol. 2016 Nov;172:72-77. doi: 10.1016/j.clim.2016.07.011. Epub 2016 Jul 18.

DOI:10.1016/j.clim.2016.07.011

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5159197/

Abstract

IgA nephropathy (IgAN) is the leading cause of primary glomerulonephritis in the world. The disease is characterized by the presence of IgA-containing immune complexes in the circulation and in mesangial deposits with ensuing glomerular injury. Although in humans there are two IgA subclasses, only IgA1 molecules are involved. The exclusivity of participation of IgA1 in IgAN prompted extensive structural and immunological studies of the unique hinge region (HR) of IgA1, which is absent in otherwise highly homologous IgA2. HR of IgA1 with altered O-glycans serves as an antigen recognized by autoantibodies specific for aberrant HR glycans leading to the generation of nephritogenic immune complexes. However, there are several unresolved questions concerning the phylogenetic origin of human IgA1 HR, the structural basis of its antigenicity, the origin of antibodies specific for HR with altered glycan moieties, the regulatory defects in IgA1 glycosylation pathways, and the potential approaches applicable to the disease-specific interventions in the formation of nephritogenic immune complexes. This review focuses on the gaps in our knowledge of molecular and cellular events that are involved in the immunopathogenesis of IgAN.

摘要

IgA肾病（IgAN）是全球原发性肾小球肾炎的主要病因。该疾病的特征是循环系统和系膜沉积物中存在含IgA的免疫复合物，继而导致肾小球损伤。虽然人类有两种IgA亚类，但仅IgA1分子参与其中。IgA1在IgAN中的独特参与促使人们对IgA1独特的铰链区（HR）进行广泛的结构和免疫学研究，而在高度同源的IgA2中则不存在该区域。O-聚糖改变的IgA1铰链区可作为一种抗原，被针对异常HR聚糖的自身抗体识别，从而导致致肾炎免疫复合物的产生。然而，关于人类IgA1铰链区的系统发育起源、其抗原性的结构基础、针对聚糖部分改变的HR的抗体的起源、IgA1糖基化途径中的调节缺陷，以及适用于致肾炎免疫复合物形成的疾病特异性干预的潜在方法，仍存在几个未解决的问题。本综述重点关注我们在IgAN免疫发病机制中涉及的分子和细胞事件的认识上的差距。

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