Rhesus Macaque Killer Cell Ig-like Receptor Domain 0 Glycans Impact Surface Expression and Ligand Specificity.

IF 3.6 3区医学 Q2 IMMUNOLOGY

Journal of immunology Pub Date : 2024-10-28 DOI:10.4049/jimmunol.2400466

Jennifer L Anderson, Kjell Sandstrom, Vadim A Klenchin, David T Evans

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引用次数: 0

Abstract

Defining the MHC class I ligands of rhesus macaque killer cell Ig-like receptors (KIRs) is fundamental to NK cell biology in this species as a model for infectious diseases and comparative immunogenetics. Several rhesus macaque KIRs belong to a phylogenetically distinct group with a three-amino acid deletion in domain 0 (D0). This deletion results in polymorphic differences in potential N-linked glycosylation (PNG) sites adjacent to a predicted KIR-MHC class I contact site. Whereas most KIRs have two tandem PNG sites in D0 (N36FTN39FT), the KIRs containing the deletion only have a single site in this region (N36FT). To discern the contribution of glycosylation to KIR expression and ligand recognition, we constructed PNG mutants for six lineage II KIR genes that eliminate or create sites for N-glycan addition at these locations. The impact of these mutations on total and surface expression was determined by immunoblotting and flow cytometry. Ligand engagement was assessed by coincubating reporter cell lines bearing chimeric KIR-CD3ζ receptors with target cells expressing individual MHC class I molecules and were corroborated by staining with KIR IgG-Fc fusion proteins. We found that N36FT is glycosylated in KIR with a single site, and at least one site is glycosylated in KIRs with two tandem sites. In general, for rhesus KIRs with a single D0 glycosylation site, that site contributes to surface expression. For KIRs with two tandem sites, the first site can contribute to ligand specificity. This study establishes that D0 glycosylation of rhesus macaque KIRs modulates surface expression and contributes to ligand specificity.

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猕猴杀伤细胞 Ig 样受体 0 结构域聚糖对表面表达和配体特异性的影响

确定猕猴杀伤细胞 Ig 样受体（KIRs）的 MHC I 类配体对作为传染病模型的猕猴 NK 细胞生物学和比较免疫遗传学至关重要。几种猕猴 KIR 在系统发育上属于不同的组，其 0 结构域（D0）有三个氨基酸缺失。这种缺失导致邻近预测的 KIR-MHC I 类接触位点的潜在 N-连接糖基化（PNG）位点出现多态性差异。大多数 KIR 在 D0 有两个串联的 PNG 位点（N36FTN39FT），而含有缺失的 KIR 在该区域只有一个位点（N36FT）。为了鉴别糖基化对 KIR 表达和配体识别的贡献，我们构建了六个第二系 KIR 基因的 PNG 突变体，这些突变体消除或创建了这些位置的 N-糖添加位点。这些突变对总表达和表面表达的影响是通过免疫印迹法和流式细胞术确定的。通过将携带嵌合 KIR-CD3ζ 受体的报告细胞系与表达单个 MHC I 类分子的靶细胞共同孵育来评估配体参与情况，并通过 KIR IgG-Fc 融合蛋白染色加以证实。我们发现，N36FT 在具有单个位点的 KIR 中被糖基化，而在具有两个串联位点的 KIR 中至少有一个位点被糖基化。一般来说，对于具有单个 D0 糖基化位点的恒河猴 KIR，该位点有助于表面表达。对于有两个串联位点的 KIRs，第一个位点可促进配体特异性。本研究证实，猕猴 KIRs 的 D0 糖基化位点可调节表面表达并有助于配体特异性。

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来源期刊

Journal of immunology 医学-免疫学

CiteScore

8.20

自引率

2.30%

发文量

495

审稿时长

1 months

期刊介绍： The JI publishes novel, peer-reviewed findings in all areas of experimental immunology, including innate and adaptive immunity, inflammation, host defense, clinical immunology, autoimmunity and more. Special sections include Cutting Edge articles, Brief Reviews and Pillars of Immunology. The JI is published by The American Association of Immunologists (AAI)