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Neutrophil azurophilic granule glycoproteins are distinctively decorated by atypical pauci- and phosphomannose glycans

Karli R. Reiding, Yu‐Hsien Lin, Floris P. J. van Alphen, Alexander B. Meijer, Albert J. R. Heck

2021Communications Biology28 citationsDOIOpen Access PDF

Abstract

While neutrophils are critical first-responders of the immune system, they also cause tissue damage and act in a variety of autoimmune diseases. Many neutrophil proteins are N-glycosylated, a post-translational modification that may affect, among others, enzymatic activity, receptor interaction, and protein backbone accessibility. So far, a handful neutrophil proteins were reported to be decorated with atypical small glycans (paucimannose and smaller) and phosphomannosylated glycans. To elucidate the occurrence of these atypical glycoforms across the neutrophil proteome, we performed LC-MS/MS-based (glyco)proteomics of pooled neutrophils from healthy donors, obtaining site-specific N-glycan characterisation of >200 glycoproteins. We found that glycoproteins that are typically membrane-bound to be mostly decorated with high-mannose/complex N-glycans, while secreted proteins mainly harboured complex N-glycans. In contrast, proteins inferred to originate from azurophilic granules carried distinct and abundant paucimannosylation, asymmetric/hybrid glycans, and glycan phosphomannosylation. As these same proteins are often autoantigenic, uncovering their atypical glycosylation characteristics is an important step towards understanding autoimmune disease and improving treatment.

Topics & Concepts

GlycanGlycoproteinAzurophilic granuleGlycosylationProteomeProteomicsMembrane glycoproteinsChemistryN-linked glycosylationBiochemistryBiologyImmunologyInflammationMyeloperoxidaseGeneGlycosylation and Glycoproteins ResearchCell Adhesion Molecules ResearchGalectins and Cancer Biology
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