Phosphorylation of T-cell antigen receptor-associated proteins: correlation with activation for killing and/or for gamma-interferon production by a cytolytic T-cell clone - PubMed (original) (raw)
Phosphorylation of T-cell antigen receptor-associated proteins: correlation with activation for killing and/or for gamma-interferon production by a cytolytic T-cell clone
C Boyer et al. Ann Inst Pasteur Immunol. 1987 Jan-Feb.
Abstract
The activation-induced phosphorylation of T-cell antigen receptor (Ti)-associated proteins was investigated in order to analyse possible signal-transduction mechanisms leading to two distinct effector functions of a mouse cytolytic T-cell clone (KB5.C20): target cell killing (independent of protein synthesis) and de novo production of gamma interferon (gIFN; dependent on gIFN gene expression). Ti-associated T3-like proteins were first identified by immunoprecipitation of 125I-labelled cell surface proteins from 1% digitonin lysates of clone KB5.C20 by 1- and 2-dimensional (non-reduced (NR)/reduced (R)) gel electrophoresis. In addition to the alpha and beta chains of the Ti (NR: 80-Kd; R: 43 and 40 Kd), two doublets of 35-37 Kd (NR) and 32-34 Kd (NR) leading to bands of 25, 16 and 14 Kd (R) were identified, as well as three bands (25, 23 and 22 Kd (NR)) leading to 27-, 25- and 21-Kd bands (R). Activation of clone KB5.C20 (prelabelled with 32P-orthophosphate) with either anti-Ti mAb or exposure to both ionomycin and phorbol myristic acetate (PMA) induced the phosphorylation of 21- and 25-27-Kd (R) Ti-associated proteins, whereas exposure to either ionomycin or PMA alone induced only weak phosphorylation of 21-Kd (R) components. A weak phosphorylation of 32- and 34-Kd Ti-associated proteins was sometimes observed after stimulation with anti-Ti mAb. Functional studies suggested that activation for gIFN production was observed only when both the 21- and 25-27-Kd proteins were phosphorylated, whereas activation for killing (when measured by PMA-induced non-specific killing) could occur in conditions where no phosphorylation of the 25-27-Kd protein was detected.