Abstract
Immunoglobulin A nephropathy (IgAN) is a form of chronic glomerulonephritis characterized by the deposition of IgA immune complexes in the glomerular region. The cause of IgAN is unknown, but multiple mechanisms have been suggested. We previously reported a rare case of mesangioproliferative glomerulonephritis in a patient with monoclonal immunoglobulin deposition disease associated with monoclonal IgA1. In this study, we performed the detailed analyses of serum IgA1 from this patient in comparison with those from patients with mIgA plasma cell disorder without renal involvement and healthy volunteers. We found unusual polymerization of IgA1 with additional N-glycosylation distinctive in this patient, which was different from known etiologies. Glycan profiling of IgA1 by the lectin microarray revealed an intense signal for Wisteria floribunda agglutinin (WFA). This signal was reduced by disrupting the native conformation of IgA1, suggesting that the distinct glycan profile was reflecting the conformational alteration of IgA1, including the glycan conformation detected as additional N-glycans on both the heavy and light chains. This unusually polymerized state of IgA1 would cause an increase of the binding avidity for lectins. WFA specifically recognized highly polymerized and glycosylated IgA1. Our results of analysis in the rare case of a patient with monoclonal immunoglobulin deposition disease suggest that the formation of unusually polymerized IgA1 is caused by divergent mechanisms including multiple structural alterations of glycans, which contributes to IgA1 deposition and mesangium proliferation.
Highlights
Glycosylation of IgA plays a crucial role in its conformational stability and biological activity, and often contributes to disease pathogenesis
We compared the glycan profiles of serum IgA1 collected from the mIgA-MIDD patient, two monoclonal IgA plasma cell disorder (MPCD) patients, and three healthy volunteers (HV)
The strong Wisteria floribunda agglutinin (WFA) signal in whole IgA1 from mIgA-MIDD was diminished by tryptic digestion, but the reactivity of other Oglycan binders was similar among the subjects
Summary
Glycosylation of IgA plays a crucial role in its conformational stability and biological activity, and often contributes to disease pathogenesis. Abnormalities of IgA1 glycosylation are implicated in several diseases including IgA nephropathy (IgAN) [1,2,3]. Aberrant O-glycosylation of serum IgA1 in IgAN has been studied using various lectins that bind to GalNAc residues, few studies have attempted to purify or enrich these abnormal IgA1 molecules. Involvement of these glycan alterations in IgAN pathogenesis is unclear, and whether such aberrant IgA1 is accumulated in the mesangium has not been elucidated yet
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