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Synthetic nanobodies as tools to distinguish IgG Fc glycoforms

Kevin S. Kao, Aaron Gupta, Guanghui Zong, Chao Li, Isabell Kerschbaumer, Sara Borghi, Jacqueline M. Achkar, Stylianos Bournazos, Lai‐Xi Wang, Jeffrey V. Ravetch

2022Proceedings of the National Academy of Sciences18 citationsDOIOpen Access PDF

Abstract

Protein glycosylation is a crucial mediator of biological functions and is tightly regulated in health and disease. However, interrogating complex protein glycoforms is challenging, as current lectin tools are limited by cross-reactivity while mass spectrometry typically requires biochemical purification and isolation of the target protein. Here, we describe a method to identify and characterize a class of nanobodies that can distinguish glycoforms without reactivity to off-target glycoproteins or glycans. We apply this technology to immunoglobulin G (IgG) Fc glycoforms and define nanobodies that specifically recognize either IgG lacking its core-fucose or IgG bearing terminal sialic acid residues. By adapting these tools to standard biochemical methods, we can clinically stratify dengue virus and SARS-CoV-2 infected individuals based on their IgG glycan profile, selectively disrupt IgG-Fcγ receptor binding both in vitro and in vivo, and interrogate the B cell receptor (BCR) glycan structure on living cells. Ultimately, we provide a strategy for the development of reagents to identify and manipulate IgG Fc glycoforms.

Topics & Concepts

GlycanGlycosylationImmunoglobulin GFragment crystallizable regionGlycoproteinSialic acidAntibodyGlycomicsBiologyReceptorChemistryBiochemistryComputational biologyImmunologyMonoclonal and Polyclonal Antibodies ResearchGlycosylation and Glycoproteins ResearchComplement system in diseases
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