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Coupling Aptamer‐based Protein Tagging with Metabolic Glycan Labeling for In Situ Visualization and Biological Function Study of Exosomal Protein‐Specific Glycosylation

Lin Zhu, Yuanfeng Xu, Xinyu Wei, Haoting Lin, Mengjiao Huang, Bingqian Lin, Yanling Song, Chaoyong Yang

2021Angewandte Chemie15 citationsDOI

Abstract

Abstract Exosomal glycoproteins play important roles in many physiological and pathological functions. Herein, we developed a dual labeling strategy based on a protein‐specific aptamer tagging and metabolic glycan labeling for visualizing glycosylation of specific proteins on exosomes. The glycosylation of exosomal PD‐L1 (exoPD‐L1) was imaged in situ using intramolecular fluorescence resonance energy transfer (FRET) between fluorescent PD‐L1 aptamers bound on exoPD‐L1 and fluorescent tags on glycans introduced via metabolic glycan labeling. This method enables in situ visualization and biological function study of exosomal protein glycosylation. Exosomal PD‐L1 glycosylation was confirmed to be required in interaction with PD‐1 and participated in inhibiting of CD8 + T cell proliferation. This is an efficient and non‐destructive method to study the presence and function of exosomal protein‐specific glycosylation in situ, which provides a powerful tool for exosomal glycoproteomics research.

Topics & Concepts

GlycosylationGlycanMicrovesiclesAptamerGlycoproteinChemistryFörster resonance energy transferBiochemistryFunction (biology)Cell biologyFluorescenceBiologyMolecular biologymicroRNAGenePhysicsQuantum mechanicsExtracellular vesicles in diseaseAdvanced biosensing and bioanalysis techniquesNanowire Synthesis and Applications