N-聚糖分支与 PD-1 相反调控 BTLA,以限制分支缺失诱导的 T 细胞过度活跃。

Haik Mkhikian,Raymond W Zhou,Hayk Saryan,Christofer Daniel Sánchez,Aswath Balakrishnan,Justin Dang,Christie-Lynn Mortales,Michael Demetriou
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引用次数: 0

摘要

N-聚糖分支是促炎性 T 细胞和 B 细胞功能的一种强效、多方面的负调控因子。通过促进细胞表面多价半凝集素-糖蛋白晶格的形成,分支调节 TCR 复合物(TCR+CD4/CD8)、CD45、CD25、BCR、TLR2 和 TLR4 的聚集和/或内吞,从而抑制 T 细胞和 B 细胞的活化/增殖以及促炎性 TH1 和 TH17 超过 TH2 和诱导性 T 调节细胞的反应。此外,分支还能促进细胞表面保留生长抑制受体 CTLA-4。然而,N-糖分支在调节其他检查点受体(如 BTLA(B 和 T 淋巴细胞衰减因子)和 PD-1(程序性细胞死亡蛋白 1))细胞表面水平方面的作用尚不清楚。在本研究中,我们报告了分支通过减少内吞损失而显著增强 PD-1 细胞表面表达的情况,但在 T 细胞和 B 细胞中,BTLA 的情况恰恰相反。BTLA 结扎与 BTLA 表达的增加成正比,从而抵消了分支缺失诱导的 T 细胞亢进。T细胞中BTLA/HVEM(疱疹病毒进入介质)信号轴的其他成员,包括HVEM、LIGHT和CD160,基本上不受分支的影响。因此,分支介导的 BTLA 内吞与分支诱导的 PD-1 内吞抑制相反。因此,分支缺乏诱导的 BTLA 上调似乎是一种检查点,可限制低分支 T 细胞的极端 T 细胞过度活跃和促炎结果。
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N-Glycan Branching Regulates BTLA Opposite to PD-1 to Limit T Cell Hyperactivity Induced by Branching Deficiency.
N-glycan branching is a potent and multifaceted negative regulator of proinflammatory T cell and B cell function. By promoting multivalent galectin-glycoprotein lattice formation at the cell surface, branching regulates clustering and/or endocytosis of the TCR complex (TCR+CD4/CD8), CD45, CD25, BCR, TLR2 and TLR4 to inhibit T cell and B cell activation/proliferation and proinflammatory TH1 and TH17 over TH2 and induced T regulatory cell responses. In addition, branching promotes cell surface retention of the growth inhibitory receptor CTLA-4. However, the role of N-glycan branching in regulating cell surface levels of other checkpoint receptors such as BTLA (B and T lymphocyte attenuator) and PD-1 (programmed cell death protein 1) is unknown. In this study, we report that whereas branching significantly enhances PD-1 cell surface expression by reducing loss from endocytosis, the opposite occurs with BTLA in both T cells and B cells. T cell hyperactivity induced by branching deficiency was opposed by BTLA ligation proportional to increased BTLA expression. Other members of the BTLA/HVEM (herpesvirus entry mediator) signaling axis in T cells, including HVEM, LIGHT, and CD160, are largely unaltered by branching. Thus, branching-mediated endocytosis of BTLA is opposite of branching-induced inhibition of PD-1 endocytosis. In this manner, branching deficiency-induced upregulation of BTLA appears to serve as a checkpoint to limit extreme T cell hyperactivity and proinflammatory outcomes in T cells with low branching.
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