Van Beneden Katrien, De Creus An, Stevenaert Frederik, Debacker Veronique, Plum Jean, Leclercq Georges
Department of Clinical Chemistry, Microbiology, and Immunology, University of Ghent, University Hospital, Ghent, Belgium.
J Immunol. 2002 Apr 1;168(7):3295-302. doi: 10.4049/jimmunol.168.7.3295.
Ly49 and CD94/NKG2 inhibitory receptors are predominantly expressed on murine NK cells, but they are also expressed on a subpopulation of peripheral CD8 memory TCR alphabeta lymphocytes. In this study we demonstrate that Ly49E and CD94/NKG2 receptors are expressed on mature TCR Vgamma3(+) cells in the fetal thymus. Expression correlated with a memory phenotype, such as expression of CD44, 2B4, and IL-2Rbeta (CD122), and absence of IL-2Ralpha (CD25) expression. No expression of Ly49A, C, D, G2, or I receptors was observed. This phenotype is similar to that of fetal thymic NK cells. Skin-located Vgamma3 T cells, the progeny of fetal thymic Vgamma3 cells, also expressed CD94/NKG2 and Ly49E but not the other members of the Ly49 family. The development and survival of Ly49E(+) or CD94/NKG2(+) Vgamma3 T lymphocytes was not dependent upon expression of MHC class I molecules. The cytotoxicity of TCR Vgamma3 cells was inhibited when Qdm, the ligand for CD94/NKG2, was presented by Qa1(b)-transfected target cells. Also, upon cross-linking of CD94/NKG2 with mAb 3S9, TCR Vgamma3 thymocytes were prevented from killing FcgammaR(+) P815 target cells. These effects were most pronounced in the CD94/NKG2(high) subpopulation as compared with the CD94/NKG2(low) subpopulation of Vgamma3 cells. Our data demonstrate that Vgamma3 T cells expressing inhibitory Ly49E and CD94/NKG2 receptors are mature and display a memory phenotype, and that CD94/NKG2 functions as an inhibitory receptor on these T lymphocytes.
Ly49和CD94/NKG2抑制性受体主要表达于小鼠自然杀伤(NK)细胞上,但它们也表达于外周CD8记忆性TCRαβ淋巴细胞亚群。在本研究中,我们证明Ly49E和CD94/NKG2受体表达于胎儿胸腺中的成熟TCR Vγ3(+)细胞上。这种表达与记忆表型相关,如CD44、2B4和IL-2Rβ(CD122)的表达,且缺乏IL-2Rα(CD25)表达。未观察到Ly49A、C、D、G2或I受体的表达。这种表型与胎儿胸腺NK细胞的表型相似。位于皮肤的Vγ3 T细胞是胎儿胸腺Vγ3细胞的后代,也表达CD94/NKG2和Ly49E,但不表达Ly49家族的其他成员。Ly49E(+)或CD94/NKG2(+) Vγ3 T淋巴细胞的发育和存活不依赖于MHC I类分子的表达。当Qa1(b)转染的靶细胞呈递CD94/NKG2的配体Qdm时,TCR Vγ3细胞的细胞毒性受到抑制。此外,用单克隆抗体3S9使CD94/NKG2交联后,TCR Vγ3胸腺细胞被阻止杀伤FcγR(+) P815靶细胞。与Vγ3细胞的CD94/NKG2(低)亚群相比,这些效应在CD94/NKG2(高)亚群中最为明显。我们的数据表明,表达抑制性Ly49E和CD94/NKG2受体的Vγ3 T细胞是成熟的,并呈现记忆表型,且CD94/NKG2在这些T淋巴细胞上作为抑制性受体发挥作用。
