Maynard Jennifer, Petersson Karin, Wilson Dianne H, Adams Erin J, Blondelle Sylvie E, Boulanger Marty J, Wilson Darcy B, Garcia K Christopher
Departments of Microbiology and Immunology, Structural Biology, Stanford University School of Medicine, Stanford, CA 94305, USA.
Immunity. 2005 Jan;22(1):81-92. doi: 10.1016/j.immuni.2004.11.015.
T cell receptor crossreactivity with different peptide ligands and biased recognition of MHC are coupled features of antigen recognition that are necessary for the T cell's diverse functional repertoire. In the crystal structure between an autoreactive, EAE T cell clone 172.10 and myelin basic protein (1-11) presented by class II MHC I-Au, recognition of the MHC is dominated by the Vbeta domain of the TCR, which interacts with the MHC alpha chain in a manner suggestive of a germline-encoded TCR/MHC "anchor point." Strikingly, there are few specific contacts between the TCR CDR3 loops and the MBP peptide. We also find that over 1,000,000 different peptides derived from combinatorial libraries can activate 172.10, yet the TCR strongly prefers the native MBP contact residues. We suggest that while TCR scanning of pMHC may be degenerate due to the TCR germline bias for MHC, recognition of structurally distinct agonist peptides is not indicative of TCR promiscuity, but rather highly specific alternative solutions to TCR engagement.
T细胞受体与不同肽配体的交叉反应性以及对主要组织相容性复合体(MHC)的偏向性识别是抗原识别的耦合特征,对于T细胞多样的功能库而言是必需的。在自身反应性实验性自身免疫性脑脊髓炎(EAE)T细胞克隆172.10与由II类MHC I-Au呈递的髓鞘碱性蛋白(1-11)之间的晶体结构中,TCR对MHC的识别主要由TCR的Vβ结构域主导,该结构域与MHCα链相互作用,其方式暗示了种系编码的TCR/MHC“锚定点”。引人注目的是,TCR互补决定区(CDR3)环与髓鞘碱性蛋白肽之间几乎没有特异性接触。我们还发现,来自组合文库的超过1,000,000种不同肽可以激活172.10,但TCR强烈偏好天然髓鞘碱性蛋白的接触残基。我们认为,虽然由于TCR种系对MHC的偏向性,TCR对肽-MHC(pMHC)的扫描可能是简并的,但对结构不同的激动剂肽的识别并不表明TCR杂乱无章,而是TCR结合的高度特异性替代解决方案。
