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人类与其他原始人类的不同之处在于,人类缺乏一种能识别MHC I类分子C1表位的活化性自然杀伤细胞受体。

Humans differ from other hominids in lacking an activating NK cell receptor that recognizes the C1 epitope of MHC class I.

作者信息

Moesta Achim K, Graef Thorsten, Abi-Rached Laurent, Older Aguilar Anastazia M, Guethlein Lisbeth A, Parham Peter

机构信息

Department of Structural Biology, School of Medicine, Stanford University, Stanford, CA 94305, USA.

出版信息

J Immunol. 2010 Oct 1;185(7):4233-7. doi: 10.4049/jimmunol.1001951. Epub 2010 Aug 27.

DOI:10.4049/jimmunol.1001951
PMID:20802150
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3124310/
Abstract

Modulation of human NK cell function by killer cell Ig-like receptors (KIR) and MHC class I is dominated by the bipartite interactions of inhibitory lineage III KIR with the C1 and C2 epitopes of HLA-C. In comparison, the ligand specificities and functional contributions of the activating lineage III KIR remain poorly understood. Using a robust, sensitive assay of KIR binding and a representative panel of 95 HLA class I targets, we show that KIR2DS1 binds C2 with ~50% the avidity of KIR2DL1, whereas KIR2DS2, KIR2DS3, and KIR2DS5 have no detectable avidity for C1, C2, or any other HLA class I epitope. In contrast, the chimpanzee has activating C1- and C2-specific lineage III KIR with strong avidity, comparable to those of their paired inhibitory receptors. One variant of chimpanzee Pt-KIR3DS2, the activating C2-specific receptor, has the same avidity for C2 as does inhibitory Pt-KIR3DL4, and a second variant has ~73% the avidity. Chimpanzee Pt-KIR3DS6, the activating C1-specific receptor, has avidity for C1 that is ~70% that of inhibitory Pt-KIR2DL6. In both humans and chimpanzees we observe an evolutionary trend toward reducing the avidity of the activating C1- and C2-specific receptors through selective acquisition of attenuating substitutions. However, the extent of attenuation has been extreme in humans, as exemplified by KIR2DS2, an activating C1-specific receptor that has lost all detectable avidity for HLA class I. Supporting such elimination of activating C1-specific receptors as a uniquely human phenomenon is the presence of a high-avidity activating C1-specific receptor (Gg-KIR2DSa) in gorilla.

摘要

杀伤细胞免疫球蛋白样受体(KIR)和MHC I类分子对人类自然杀伤细胞(NK细胞)功能的调节,主要由抑制性III型KIR与HLA - C的C1和C2表位的二元相互作用主导。相比之下,激活性III型KIR的配体特异性和功能作用仍知之甚少。我们使用一种强大且灵敏的KIR结合检测方法以及一组包含95个HLA I类靶标的代表性样本,发现KIR2DS1与C2结合的亲和力约为KIR2DL1的50%,而KIR2DS2、KIR2DS3和KIR2DS5对C1、C2或任何其他HLA I类表位均无明显亲和力。相反,黑猩猩具有与它们配对的抑制性受体亲和力相当的、激活性的C1和C2特异性III型KIR。黑猩猩的激活性C2特异性受体Pt - KIR3DS2的一个变体对C2的亲和力与抑制性Pt - KIR3DL4相同,另一个变体的亲和力约为其73%。黑猩猩的激活性C1特异性受体Pt - KIR3DS6对C1的亲和力约为抑制性Pt - KIR2DL6的70%。在人类和黑猩猩中,我们都观察到一种进化趋势,即通过选择性获得减弱性替代来降低激活性C1和C2特异性受体的亲和力。然而,在人类中这种减弱程度极为显著,例如激活性C1特异性受体KIR2DS2已丧失对HLA I类分子的所有可检测到的亲和力。大猩猩中存在高亲和力的激活性C1特异性受体(Gg - KIR2DSa),这支持了消除激活性C1特异性受体是人类独有的现象这一观点。

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