α2-3 Sialic acid binding and uptake by human monocyte-derived dendritic cells alters metabolism and cytokine release and initiates tolerizing T cell programming.

IF 4.1 Q2 IMMUNOLOGY Immunotherapy advances Pub Date : 2021-06-09 eCollection Date: 2021-01-01 DOI:10.1093/immadv/ltab012
Joyce Lübbers, Rui-Jún 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
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引用次数: 4

Abstract

Dendritic cells (DCs) are key in the initiation of the adaptive T cell responses to tailor adequate immunity that corresponds to the type of pathogen encountered. Oppositely, DCs control the resolution phase of inflammation and are able to induce tolerance after receiving anti-inflammatory cytokines or upon encounter of self-associated molecular patterns, such as α2-3 linked sialic acid (α2-3sia).

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. TH1 differentiation promoting genes IFNL and IL27, 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 FoxP3+CD25+/-CD127- regulatory T cell differentiation and decreased FoxP3-CD25-CD127- 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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α - 2-3唾液酸与人单核细胞来源的树突状细胞的结合和摄取改变了代谢和细胞因子的释放,并启动了耐受性T细胞编程。
树突状细胞(dc)是启动适应性T细胞反应的关键,以适应所遇到的病原体类型的适当免疫。相反,dc控制炎症的消退阶段,并能够在接受抗炎细胞因子或遇到自相关分子模式(如α2-3链接唾液酸(α2-3sia))后诱导耐受。目的:研究结合免疫抑制性Siglec受体的α2-3sia是否会改变lps刺激的人单核细胞源性dc (moDCs)的信号传导和重编程。方法和结果:α2-3sia共轭树突状分子刺激的moDCs转录组学分析揭示了代谢途径、细胞因子和T细胞分化相关基因的差异表达。检测到参与atp酶调节活性、氧化还原酶活性和糖原代谢过程的基因增加。代谢胞外通量分析证实了α2-3sia结合后更有活力的moDC表型,证明了糖酵解和线粒体氧化磷酸化的增加。TH1分化促进基因IFNL和IL27在α2-3sia存在下显著下调。功能分析证实,α2-3sia结合moDCs可诱导Siglec-9磷酸化,减少炎症细胞因子IL-12和IL-6的产生,并增加IL-10。令人惊讶的是,α2-3sia分化的moDCs促进FoxP3+CD25+/- cd127 -调节性T细胞分化,降低FoxP3-CD25- cd127 -效应T细胞增殖。结论:我们证明α2-3sia与moDCs结合,磷酸化siglece -9,改变moDCs的代谢途径、细胞因子信号传导和T细胞分化过程,并促进调节性T细胞。因此,dc上的唾液酸- siglec轴是诱导耐受性和探索旨在恢复炎症过程的免疫治疗干预的新靶点。
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