Blumberg R S, Alarcon B, Sancho J, McDermott F V, Lopez P, Breitmeyer J, Terhorst C
Laboratory of Molecular Immunology, Dana Farber Cancer Institute, Boston, Massachusetts 02115.
J Biol Chem. 1990 Aug 15;265(23):14036-43.
The T cell receptor (TCR) for antigen consists, on the majority of peripheral lymphocytes, of an immunoglobulin-like, disulfide-linked heterodimeric glycoprotein: the alpha and beta chain. These proteins are noncovalently linked to at least four nonvariant proteins which comprise the CD3 complex: CD3 gamma, delta, epsilon, and zeta. Whereas the TCR alpha and beta proteins have positively charged residues in the transmembrane region, all the CD3 proteins have similarly placed negatively charged amino acid residues. It has been suggested that these basic and acidic amino acid residues may play an important role in TCR.CD3 complex assembly and/or function. In this paper, the structural and functional role of the lysine and arginine residues of the TCR alpha chain was addressed using oligonucleotide mediated site directed mutagenesis. The Arg256 and Lys261 residues of the TCR alpha cDNA of the HPB-ALL cell line were mutated to either Gly256 and/or Ile261. The altered cDNAs were transfected into a TCR alpha negative recipient mutant cell line of REX, clone 20A. Metabolic labeling of the T cell transfectants showed that mutation of either the Arg256 or Lys261 amino acid residues had no effect on the ability of the TCR alpha chain to form either a heterodimer with the TCR beta chain or a complex with the CD3 gamma, delta, and epsilon proteins. Consequently, the Arg256 to Gly256 and Lys261 to Ile261 mutations did not prevent the formation of a mature, functional TCR.CD3 complex on the cell surface as determined by immunofluorescence, cell surface radioiodination, and the ability of the transfectants to mobilize intracellular calcium after stimulation with a mitogenic anti-CD3 epsilon monoclonal antibody. In contrast, a mutant cDNA in which both the Arg256 and Lys261 residues were mutated to Gly256 and Ile261, respectively, failed to reconstitute the cell surface expression of the TCR.CD3 complex and, consequently, the ability to respond to mitogenic stimuli. In the absence of both the Arg256 and Lys261 residues, TCR alpha beta heterodimer formation was not observed. Cotransfection studies in COS cells showed that the failure of assembly of a heterodimer was likely due to an inability of the mutated TCR alpha chain to form a subcomplex with either the CD3 gamma, delta, epsilon, or zeta proteins.(ABSTRACT TRUNCATED AT 400 WORDS)
在大多数外周淋巴细胞上,抗原的T细胞受体(TCR)由一种免疫球蛋白样、通过二硫键连接的异源二聚体糖蛋白组成:α链和β链。这些蛋白质与至少四种构成CD3复合物的不变蛋白非共价连接:CD3γ、δ、ε和ζ。虽然TCRα和β蛋白在跨膜区域有带正电荷的残基,但所有CD3蛋白在类似位置都有带负电荷的氨基酸残基。有人提出,这些碱性和酸性氨基酸残基可能在TCR - CD3复合物的组装和/或功能中起重要作用。在本文中,利用寡核苷酸介导的定点诱变研究了TCRα链中赖氨酸和精氨酸残基的结构和功能作用。HPB - ALL细胞系TCRα cDNA的Arg256和Lys261残基被突变为Gly256和/或Ile261。将改变后的cDNA转染到REX的TCRα阴性受体突变细胞系克隆20A中。对T细胞转染子的代谢标记显示,Arg256或Lys261氨基酸残基的突变对TCRα链与TCRβ链形成异源二聚体或与CD3γ、δ和ε蛋白形成复合物的能力没有影响。因此,由免疫荧光、细胞表面放射性碘化以及转染子在用促有丝分裂的抗CD3ε单克隆抗体刺激后动员细胞内钙的能力所确定,Arg256突变为Gly256以及Lys261突变为Ile261的突变并不妨碍在细胞表面形成成熟的、有功能的TCR - CD3复合物。相反,一种将Arg256和Lys261残基分别突变为Gly256和Ile261的突变cDNA未能重建TCR - CD3复合物的细胞表面表达,因此也未能重建对促有丝分裂刺激作出反应的能力。在没有Arg256和Lys261残基的情况下,未观察到TCRαβ异源二聚体的形成。在COS细胞中的共转染研究表明,异源二聚体组装失败可能是由于突变的TCRα链无法与CD3γ、δ、ε或ζ蛋白形成亚复合物。(摘要截短至400字)
