Modeling of early events in T cell signal transduction after controlled T cell activation by peptide major histocompatibility complex.

Calcium signaling was observed in murine T cells over time, starting at a precise moment of contact with a layer of fibroblasts expressing a stimulatory major histocompatibility class II-peptide complex. The contact was controlled by a film-thinning apparatus. Intracellular calcium levels were followed with the ratiometric dye, Fura-2. The calcium response was highly synchronized and well fitted by a mathematical model. The model includes three components: a sequence of reactions occurring after T cell receptor (TCR) triggering; InsP3-mediated calcium release from intracellular stores (Meyer and Stryer, Proc. Natl. Acad. Sci. USA 85: 5051-5055, 1988); and slow changes in levels phospholipase C-gammal (PLCgammal) reflecting a decrease in receptor triggering rate. Each component in the model controls a different part of the response-the initial delay, the sharp rise, and the slow decay, respectively. Kinetic parameters determined from curve fitting were the initial delay in calcium signaling defined as the time when [PLCgammal] reached its half of its maximum (76 s), the coefficient characterizing calcium efflux from endoplasmic reticulum (ER) (2.86 microM s(-1), expressed per liter of cell volume), and a rate constant characterizing the diminishing yield of production of PLCgammal (0.00046 s(-1)) by active TCR. Only the parameter representing PLCgammal production varied much from cell to cell.