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NKG2A/CD94 is a New Immune Receptor for HLA-G and Distinguishes Amino Acid Differences in the HLA-G Heavy Chain
NKG2A/CD94 是一种新的 HLA-G 免疫受体,可区分 HLA-G 重链中的氨基酸差异
- 影响因子:4.32
- DOI:10.3390/ijms21124362
- 作者列表:"Gia-Gia T. Hò","Alexander A. Celik","Trevor Huyton","Wiebke Hiemisch","Rainer Blasczyk","Gwendolin S. Simper","Christina Bade-Doeding
- 发表时间:2020-06-20
Abstract
Natural killer (NK) cell therapies are a tool to antagonize a dysfunctional immune system. NK cells recognize malignant cells, traffic to a tumor location, and infiltrate the solid tumor. The immune checkpoint molecule human leukocyte antigen (HLA)-G is upregulated on malignant cells but not on healthy surrounding cells, the requirement of understanding the basis of receptor mediated events at the HLA-G/NK cell interface becomes obvious. The NK cell receptors ILT2 and KIR2DL4 have been described to bind to HLA-G; however, their differential function and expression levels on NK cell subsets suggest the existence of an unreported receptor. Here, we performed a ligand-based receptor capture on living cells utilizing sHLA-G*01:01 molecules coupled to <i>TriCEPS</i> and bound to NK cells followed by mass spectrometric analyses. We could define NKG2A/CD94 as a cognate receptor of HLA-G. To verify the results, we used the reciprocal method by expressing recombinant soluble heterodimeric NKG2A/CD94 molecules and used them to target HLA-G*01:01 expressing cells. NKG2A/CD94 could be confirmed as an immune receptor of HLA-G*01:01. Despite HLA-G is marginal polymorphic, we could previously demonstrate that the most common allelic subtypes HLA-G*01:01/01:03 and 01:04 differ in peptide repertoire, their engagement to NK cells, their catalyzation of dNK cell proliferation and their impact on NK cell development. Continuing these studies with regard to NKG2A/CD94 engagement we engineered recombinant single antigen presenting <i>K562</i> cells and targeted the surface expressed HLA-G*01:01, 01:03 or 01:04 molecules with NKG2A/CD94. Specificity and sensitivity of HLA-G*01:04/NKG2A/CD94 engagement could be significantly verified. The binding affinity decreases when using <i>K562-G*01:03</i> or <i>K562-G*01:01</i> cells as targets. These results demonstrate that the ligand-receptor assignment between HLA-G and NKG2A/CD94 is dependent of the amino acid composition in the HLA-G heavy chain. Understanding the biophysical basis of receptor-mediated events that lead to NK cell inhibition would help to remove non-tumor reactive cells and support personalized mild autologous NK cell therapies.
摘要
自然杀伤 (NK) 细胞疗法是对抗功能失调的免疫系统的工具。NK 细胞识别恶性细胞,运输到肿瘤位置,并浸润实体瘤。免疫检查点分子人类白细胞抗原 (HLA)-G 在恶性细胞上上调,但在健康周围细胞上不上调,了解 HLA-G/NK 细胞界面受体介导事件基础的要求变得明显。NK 细胞受体 ILT2 和 KIR2DL4 已被描述与 HLA-G 结合; 然而,它们在 NK 细胞亚群上的差异功能和表达水平提示存在一个未报道的受体。在这里,我们利用与 <i> 三头肌 </i> 偶联并与 NK 细胞结合的 sHLA-G * 01:01 分子在活细胞上进行了基于配体的受体捕获,随后进行了质谱分析。我们可以将 NKG2A/CD94 定义为 HLA-G 的同源受体。为了验证结果,我们采用表达重组可溶性异二聚体 NKG2A/CD94 分子的倒数方法,并将其用于靶向 HLA-G * 01:01 表达细胞。NKG2A/CD94 可证实为 HLA-G * 01:01 的免疫受体。尽管 HLA-G 具有边缘多态性,但我们以前可以证明最常见的等位基因亚型 HLA-G * 01:01/01:03 和 01:04 在肽库上存在差异,它们与 NK 细胞的结合,它们对 dNK 细胞增殖的催化及其对 NK 细胞发育的影响。继续这些关于 NKG2A/CD94 接合的研究,我们设计了重组单抗原呈递 <i>K562</i> 细胞,并靶向表面表达的 HLA-G * 01:01, 01:03 或 01:04 分子与 NKG2A/cd94。HLA-G * 01:04/NKG2A/CD94 参与的特异性和敏感性可得到显著验证。当使用 <i>K562-G * 01:03</i> 或 <i>K562-G * 01:01</i> 细胞作为靶标时,结合亲和力降低。这些结果证明 HLA-G 和 NKG2A/CD94 之间的配体-受体分配依赖于 HLA-G 重链中的氨基酸组成。了解导致 NK 细胞抑制的受体介导事件的生物物理基础将有助于去除非肿瘤反应性细胞,并支持个性化的温和自体 NK 细胞治疗。
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