San José E, Sahuquillo A G, Bragado R, Alarcón B
Centro de Biología Molecular Severo Ochoa, CSIC-Universidad Autónoma de Madrid, Spain.
Eur J Immunol. 1998 Jan;28(1):12-21. doi: 10.1002/(SICI)1521-4141(199801)28:01<12::AID-IMMU12>3.0.CO;2-9.
The TCR/CD3 complex is composed of six subunits which are expressed on the cell surface in a coordinate fashion after assembly in the endoplasmic reticulum (ER). The TCR/CD3 complex is assembled after a series of pairwise interactions involving the formation of dimers of CD3 epsilon with either CD3 gamma or CD3 delta. These dimers assemble with TCR alpha and TCR beta chains, and finally, the CD3 zeta homodimer is added to allow export of the full complex from the ER. A model has been proposed suggesting that during assembly the CD3 epsilon/CD3 gamma dimer interacts exclusively with TCR beta and the CD3 epsilon/CD3 delta dimer with TCR alpha to form a complex with a single TCR alpha/beta heterodimer. We show in this study, by immunoprecipitation and two-dimensional gel electrophoresis, that in the human T cell line Jurkat as well as in total human thymocytes, this preferential interaction does not occur and instead, the CD3 epsilon/CD3 gamma and CD3 epsilon/CD3 delta dimers associate with both TCR chains simultaneously and indistinctly. These data are confirmed by the analysis of the TCR alpha-negative T cell line MOLT-4 in which TCR beta is found separately associated with CD3 epsilon/CD3 gamma and with CD3 epsilon/CD3 delta dimers. Indirectly, our results support a model of stoichiometry in which two TCR alpha/beta heterodimers are present in a TCR/CD3 complex. Furthermore, immunoprecipitation with anti-CD3 gamma and anti-CD3 delta antibodies from 1% NP40 and 1% Brij96 cell lysates showed that these subunits form independent partial complexes which are cross-linked through the CD3 zeta homodimer. This suggests that CD3 zeta mediates the interaction between both TCR alpha/beta heterodimers contained in the double TCR complex. Further proof for this hypothesis is obtained after analysis of a Jurkat cell transfectant containing a point mutation in the transmembrane domain of TCR beta that impairs the association of CD3 zeta. In this mutant cell line, unlike a control line with wild-type TCR beta, the CD3 gamma- and CD3 delta-containing complexes were found completely independent. Altogether, these results support a model of TCR/CD3 assembly and stoichiometry in which two TCR-alpha/beta heterodimers form two hemicomplexes containing either CD3 epsilon/gamma or CD3 epsilon/delta dimers which become associated via the CD3 zeta homodimer.
TCR/CD3复合物由六个亚基组成,在内质网(ER)中组装后以协调的方式在细胞表面表达。TCR/CD3复合物在一系列成对相互作用后组装而成,这些相互作用涉及CD3ε与CD3γ或CD3δ形成二聚体。这些二聚体与TCRα和TCRβ链组装在一起,最后添加CD3ζ同型二聚体,以使完整的复合物从内质网输出。有人提出了一个模型,表明在组装过程中,CD3ε/CD3γ二聚体仅与TCRβ相互作用,而CD3ε/CD3δ二聚体与TCRα相互作用,形成一个含有单个TCRα/β异源二聚体的复合物。在本研究中,我们通过免疫沉淀和二维凝胶电泳表明,在人T细胞系Jurkat以及全人类胸腺细胞中,这种优先相互作用并未发生,相反,CD3ε/CD3γ和CD3ε/CD3δ二聚体同时且无区别地与两条TCR链结合。对TCRα阴性T细胞系MOLT-4的分析证实了这些数据,在该细胞系中发现TCRβ分别与CD3ε/CD3γ和CD3ε/CD3δ二聚体结合。间接而言,我们的结果支持一种化学计量模型,其中一个TCR/CD3复合物中存在两个TCRα/β异源二聚体。此外,用抗CD3γ和抗CD3δ抗体从1%NP40和1%Brij96细胞裂解物中进行免疫沉淀表明,这些亚基形成独立的部分复合物,它们通过CD3ζ同型二聚体交联。这表明CD3ζ介导了双TCR复合物中两个TCRα/β异源二聚体之间的相互作用。在分析含有TCRβ跨膜结构域点突变且损害CD3ζ结合的Jurkat细胞转染体后,获得了该假设的进一步证据。在这个突变细胞系中,与具有野生型TCRβ的对照细胞系不同,发现含有CD3γ和CD3δ的复合物是完全独立的。总之,这些结果支持了一种TCR/CD3组装和化学计量模型,其中两个TCR-α/β异源二聚体形成两个半复合物,分别含有CD3ε/γ或CD3ε/δ二聚体,它们通过CD3ζ同型二聚体相互关联。
