Author:
Izzati Fauzia N.,Choksi Hani,Giuliana Paolo,Abd-Rabbo Diala,Elsaesser Heidi,Blundell Aled,Affe Vanessa,Kannen Vinicius,Jame-Chenarboo Zeinab,Schmidt Edward,Kuypers Meggie,Avila David B.,Chiu Eric S. Y.,Badmaev Dzhangar,Cui Haissi,Matthews Jason,Mallevaey Thierry,Macauley Matthew S.,Brooks David G.,Edgar Landon J.
Abstract
SUMMARYGlycans are emerging as important regulators of T cell function but remain poorly characterized across the functionally distinct populations that existin vivo. Here, we couple single-cell analysis technologies with soluble lectins and chemical probes to interrogate glycosylation patterns on major T cell populations across multiple mouse and human tissues. Our analysis focused on terminal glycan epitopes with immunomodulatory functions, including sialoglycan ligands for Siglecs. We demonstrate that glycosylation patterns are diverse across the resting murine T cell repertoire and dynamically remodelled in response to antigen-specific stimulation. Surprisingly, we find that human T cell populations do not share the same glycoprofiles or glycan remodelling dynamics as their murine counterparts. We show that these differences can be explained by divergent regulation of glycan biosynthesis pathways between the species. These results highlight fundamental glycophysiological differences between mouse and human T cells and reveal features that are critical to consider for glycan-targeted therapies.
Publisher
Cold Spring Harbor Laboratory