Assembly of the TCR/CD3 complex: CD3ϵ/δ and CD3ϵ/γ dimers associate indistinctly with both TCRα and TCRβ chains. Evidence for a double TCR heterodimer model

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 CD3ϵ with either CD3γ or CD3δ. These dimers assemble with TCRα and TCRβ chains, and finally, the CD3ζ homodimer is added to allow export of the full complex from the ER. A model has been proposed suggesting that during assembly the CD3ϵ/CD3γ dimer interacts exclusively with TCRβ and the CD3ϵ/CD3δ dimer with TCRα to form a complex with a single TCRα/β 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 CD3ϵ/CD3γ and CD3ϵ/CD3δ dimers associate with both TCR chains simultaneously and indistinctly. These data are confirmed by the analysis of the TCRα‐negative T cell line MOLT‐4 in which TCRβ is found separately associated with CD3ϵ/CD3γ and with CD3ϵ/CD3δ dimers. Indirectly, our results support a model of stoichiometry in which two TCRα/β heterodimers are present in a TCR/CD3 complex. Furthermore, immunoprecipitation with anti‐CD3γ and anti‐CD3δ antibodies from 1 % NP40 and 1 % Brij96 cell lysates showed that these subunits form independent partial complexes which are cross‐linked through the CD3ζ homodimer. This suggests that CD3ζ mediates the interaction between both TCRα/β 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 TCRβ that impairs the association of CD3ζ. In this mutant cell line, unlike a control line with wild‐type TCRβ, the CD3γ‐ and CD3δ‐containing complexes were found completely independent. Altogether, these results support a model of TCR/CD3 assembly and stoichiometry in which two TCR‐α/β heterodimers form two hemicomplexes containing either CD3ϵ/γ or CD3ϵ/δ dimers which become associated via the CD3ζ homodimer.