Kinase-independent potentiation of B cell antigen receptor-mediated signal transduction by the protein tyrosine kinase Src.

Signal transduction mediated by the B cell Ag receptor involves the activation of multiple protein tyrosine kinases that are members of the Src family (i.e., Fyn, Lyn, Blk, Lck). To determine whether members of the Src family possess common physical and/or enzymatic properties that enable them to potentiate signal transduction via the B cell Ag receptor, we expressed the protein tyrosine kinase Src in the B lymphoma cell line K46-17 mu m lambda. Based on coprecipitation analysis and two-color immunofluorescence, this heterologous Src family kinase was observed to physically associate with the B cell Ag receptor. Additional experiments demonstrated that B cell Ag receptor cross-linking results in increased tyrosine phosphorylation and activation of Src. Several parameters of B cell activation, including tyrosine phosphorylation of intracellular substrates, calcium mobilization, and transcription factor activation, were potentiated in cells that expressed Src when compared with control cells. To determine whether potentiation of Ag receptor-mediated signaling by Src was dependent on its catalytic activity, a kinase-deficient form of Src was expressed in K46-17 mu m lambda cells. Transfectants expressing kinase-deficient Src exhibited an enhanced responsiveness to stimulation through the B cell Ag receptor that was comparable with transfectants expressing wild-type Src. Additionally, kinase-deficient Src was observed to associate with the endogenous kinase Lyn in an activation-dependent manner. These findings indicate that members of the Src family may potentiate Ag receptor-mediated signaling via a kinase-independent mechanism(s) that involves amplification of kinase recruitment to the Ag receptor activation complex.

B cell stimulatory factor 1 induces lobster agglutinin 1-separated mouse thymocytes to express cytotoxic T lymphocyte activity.

Mouse thymocytes low in surface sialic acid were prepared by using the lectin lobster agglutinin 1 (LAg1). These LAg1-thymocytes do not become CTL when incubated with Con A or Con A plus mouse rIL-2, whereas unseparated thymocytes and thymocytes with high levels of surface sialic acid develop good levels of polyclonal CTL activity under these conditions. However, LAg1- thymocytes developed high levels of CTL activity when incubated with B cell stimulatory factor-1 (BSF-1), provided as the supernatant of the rBSF-1-secreting T cell hybridoma D9-C1.12.17. Affinity-purified BSF-1 from D9-C1 supernatant and rBSF-1 also stimulated these cells to become CTL, but they were not as active as the D9-C1 supernatant. The ability of D9-C1 supernatant and of affinity-purified BSF-1 to induce CTL activity was inhibited by the anti-BSF-1 mAb 11B11. Moreover, this mAb inhibited the ability of 24-h Con A-stimulated spleen cell supernatant to induce these cells to express CTL activity. 11B11 also inhibited LAg1+ thymocytes from becoming CTL when stimulated with Con A alone. These experiments suggest that BSF-1 is required for LAg1- and LAg1+ thymocytes to become CTL.