Developmental regulation of TCR-CD3-dependent [Ca2+]i responses of individual normal and pp59fyn-deficient T lymphocytes.

The aim of this study was to ascertain whether different types of T-cell receptor (TCR)-mediated [Ca2+]i signals could begin to explain the different cellular responses of mature and immature T cells to ligation of the TCR-CD3 complex. Using a digital fluorescence imaging system, we measured and compared [Ca2+]i of individual cells from immature and mature murine T-cell populations following application of CD3-epsilon monoclonal antibody (mAb). Our approach revealed distinctions among developmental subsets which were not seen by previous measurements of [Ca2+]i in bulk cell populations. The CD3-mediated [Ca2+]i responses of individual thymocytes were very complex. Latencies to peak [Ca2+]i varied greatly among thymocytes, but the responses of splenic T cells were synchronized, novel evidence that the timing of [Ca2+]i responses may be an important informative parameter for TCR-CD3 signalling. In addition, among cells responding to CD3 mAb, higher peak [Ca2+]i responses correlated with maturity (CD4+ CD8+ thymocytes < single-positive thymocytes < splenic T cells). Examination of cells from pp59fyn-deficient mice showed that pp59fyn deficiency affects the amplitude and probability, but not the latency or synchrony, of CD3-mediated [Ca2+]i responses of CD4+ CD8+ and CD4+ CD8- thymocytes. All subsets showed equivalent receptor-independent mobilization of [Ca2+]i. These developmentally distinct [Ca2+]i features most probably reflect meaningful developmental changes in how the TCR-CD3 complex couples to intracellular signalling machinery including pp59fyn. By clearly showing how [Ca2+]i responses change during development, these results support the hypothesis that distinctive types of [Ca2+]i responses drive thymocyte differentiation.