One mechanism for transducing signals downstream of lymphocyte receptor activation involves the stable association between signaling proteins. To identify protein ligands of the signal activator phospholipase Cgamma1 (PLCgamma1), we screened T cell cDNA libraries with the PLCgamma1-SH3 domain by the yeast two-hybrid assay. We observed association between the PLCgamma1-SH3 domain and the human Ras guanine nucleotide exchange factor son-of-sevenless-2 (hSos2) through a proline-rich domain interaction. Stable and abundant hSos2 / PLCgamma1 and hSos1 / PLCgamma1 complexes were observed in unstimulated T cells. The interaction between these enzymes was augmented following engagement of the T cell antigen receptor (TCR / CD3). The kinetics of protein complex enhancement correlated with TCR / CD3-induced tyrosine phosphorylation of PLCgamma1; however, those PLCgamma1 molecules in complex with hSos2 were non-phosphorylated after TCR / CD3 stimulation, in contrast to the phosphorylated PLCgamma1 associated with the linker for activation of T cells, LAT. The Grb2 adapter protein was detected in complex with hSos / PLCgamma1, suggesting a regulatory role for Grb2. SH3 domains from both Grb2 and PLCgamma1, but not RasGAP, bound directly to hSos homologues. The SH2 domain from Grb2 formed an association with the hSos / PLCgamma1 complex, which was enhanced following TCR / CD3 ligation. Together, the data suggest a mechanism for the son-of-sevenless and PLCgamma1 signal transducing enzymes in recruitment to protein complexes with potentially differential signaling consequences in T lymphocytes.