SummaryReeent studies have demonstrated that the CD3-~ subunlt of the T eell antigen reeeptor (TCR) eomplex Is involved In signal transduetlon. However, the funetlon of the remalnlng Invariant subunits, CD3-y, -ö, and e, Is still poorly understood. To examine thelr role In TCR funetlon, we have eonstrueted TCR/CD3 eomplexes devold of tunetlonal ~ subunlt and showed that they are still able to trigger the produellon of Interleukln-2 in response to antigen or superantigen. These data, together with previous results, Indleate that the TCR/ CD3 eomplex Is eomposed of at least two parallel Iransduelng unlts, made 01 the YÖE and ~ ehalns, respeetlvely, Furthermore, the analysis 01 partially truneated ~ ehains has led us to Indlvlduallze a lunetlonal domaln that may have eonstltuted the buildlng block of most of the transduelng subunlts assoelated wlth antigen reeeptors and some Fe receptors.
IntroduetionThe T cell antigen receptor (TCR) is a multisubunit complex composed of the products of at least six distinct genes. The TCR a and TCR ß subunits exist as disulfidelinked heterodimers, possess short cytoplasmic tails, and contain clonally variable regions that determine the antigenic specificity of the complex. The remaining subunits, termed CD3-y, -ö, -E, -~, and -1], are invariant, noncovalently associated with the TCR aß dimer, and possess large intracytoplasmic domains thought to be responsible for coupling antigen recognition to various signal transductlon pathways. The evolutionarily related y, Ö, and e subunits are expressed as noncovalently associated ye and OE pairs (Koning et al., 1990;Blumberg et al. , 1990; De la Herra et al. , 1991), and display immunoglobulin-like extracellular domains (Gold et al., 1987). In contrast, the ~ and 1] subunlts contaln an extracellular domain of only 9 residues and constitute the prototype of a new protein family that includes the y chain of the high affinity IgE receptor (FceRI)
