α2-3 Sialic Acid Binding and Uptake by Human Monocyte-derived Dendritic Cells Alters Metabolism and Cytokine Release and Initiates Tolerizing T Cell Programming

Overview

Journal Immunother Adv

Publisher Oxford University Press

Specialty Allergy & Immunology

Date 2022 Aug 3

PMID 35919745

Authors

Joyce Lubbers

Rui-Jun Eveline Li

Friederike S Gorki

Sven C M Bruijns

Ashley Gallagher

Hakan Kalay

Martino Ambrosini

Douwe Molenaar

Jan Van den Bossche

Sandra J van Vliet

Yvette van Kooyk

Affiliations

Soon will be listed here.

Abstract

Objective: We here investigated whether α2-3sia, that bind immune inhibitory Siglec receptors, would alter signaling and reprogramming of LPS-stimulated human monocyte-derived DCs (moDCs).

Methods And Results: Transcriptomic analysis of moDCs stimulated with α2-3sia-conjugated dendrimers revealed differentially expressed genes related to metabolic pathways, cytokines, and T cell differentiation. An increase in genes involved in ATPase regulator activity, oxidoreductase activity, and glycogen metabolic processes was detected. Metabolic extracellular flux analysis confirmed a more energetic moDC phenotype upon α2-3sia binding as evidenced by an increase in both glycolysis and mitochondrial oxidative phosphorylation. T1 differentiation promoting genes and , were significantly downregulated in the presence of α2-3sia. Functional assays confirmed that α2-3sia binding to moDCs induced phosphorylation of Siglec-9, reduced production of inflammatory cytokines IL-12 and IL-6, and increased IL-10. Surprisingly, α2-3sia-differentiated moDCs promoted FoxP3CD25CD127 regulatory T cell differentiation and decreased FoxP3CD25CD127 effector T cell proliferation.

Conclusions: In conclusion, we demonstrate that α2-3sia binding to moDCs, phosphorylates Siglec-9, alters metabolic pathways, cytokine signaling, and T cell differentiation processes in moDCs and promotes regulatory T cells. The sialic acid-Siglec axis on DCs is therefore, a novel target to induce tolerance and to explore for immunotherapeutic interventions aimed to restore inflammatory processes.

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