Uhrberg M, Valiante N M, Young N T, Lanier L L, Phillips J H, Parham P
Department of Structural Biology, Stanford University School of Medicine, Stanford, CA 94305, USA.
J Immunol. 2001 Mar 15;166(6):3923-32. doi: 10.4049/jimmunol.166.6.3923.
Killer cell Ig-like receptor (KIR) and CD94:NKG2A molecules were first defined as human NK cell receptors (NKR), but now are known to be expressed and to function on subpopulations of T cells. Here the repertoires of KIR and CD94:NKG2A expression by T cells from two donors were examined and compared with their previously defined NK cell repertoires. T cell clones generated from peripheral blood of both donors expressed multiple NKR in different combinations and used the range of receptors expressed by NK cells. In both donors alpha beta T cells less frequently expressed the inhibitory receptors CD94:NKG2A and KIR2DL1 than either gamma delta T cells or NK cells. In contrast to NK cells, not all NKR(+) T cells expressed an inhibitory receptor for autologous HLA class I. This lack of specific inhibitory NKR was especially apparent on alpha beta T cells of one donor. Overall, alpha beta T cells exhibited a distinct pattern of NKR expression different from that of gamma delta T and NK cells, which expressed highly similar NKR repertoires. In one donor, analysis of TCR rearrangement revealed a dominant subset of NKR(+) T cells sharing identical TCR alpha- and beta-chains. Remarkably, among 55 T cell clones sharing the same TCR alpha beta rearrangement 18 different KIR phenotypes were seen, suggesting that KIR expression was initiated subsequently to TCR rearrangement.
杀伤细胞免疫球蛋白样受体(KIR)和CD94:NKG2A分子最初被定义为人类自然杀伤细胞受体(NKR),但现在已知它们在T细胞亚群上表达并发挥功能。在此,研究了两名供体T细胞中KIR和CD94:NKG2A的表达谱,并将其与先前定义的自然杀伤细胞表达谱进行了比较。从两名供体的外周血中产生的T细胞克隆以不同组合表达多种NKR,并使用自然杀伤细胞表达的受体范围。在两名供体中,αβT细胞表达抑制性受体CD94:NKG2A和KIR2DL1的频率低于γδT细胞或自然杀伤细胞。与自然杀伤细胞不同,并非所有NKR(+) T细胞都表达针对自体HLA I类分子的抑制性受体。这种缺乏特异性抑制性NKR的情况在一名供体的αβT细胞上尤为明显。总体而言,αβT细胞表现出与γδT细胞和自然杀伤细胞不同的独特NKR表达模式,γδT细胞和自然杀伤细胞表达高度相似的NKR谱。在一名供体中,TCR重排分析显示NKR(+) T细胞的一个优势亚群共享相同的TCRα链和β链。值得注意的是,在共享相同TCRαβ重排的55个T细胞克隆中,观察到18种不同的KIR表型,这表明KIR表达是在TCR重排之后启动的。
