| Abstract: | The procedures for lymphocyte activation and for removing the cells from the radioactive loading solution in incubation medium were modified to routinely obtain significant and reproducible 45Ca2+ uptakes in mitogen-induced mouse T and B lymphocytes. Factors such as mouse strain, lymphocyte origin, and media pH were not critical to the 45Ca2+ uptake measurements. In contrast, factors such as lymphocyte cell concentration during mitogenic activation, filtering the 45Ca2+:3H2O mixtures, and the nature and purity of the B-cell mitogens were critical for obtaining maximal and reproducible 45Ca2+ uptakes. Centrifugation through silicone oil into sucrose was an efficient and rapid procedure for separating the cells from the radioactive loading solution in the incubation medium. Using optimal conditions, an approximate twofold increase in 45Ca2+ uptake (representing an influx of approximately 97 amol per lymphocyte and an increase in average cellular Ca2+ of approximately 0.72 mM) was routinely obtained with purified mouse lymphocytes activated with a variety of T- and B-cell mitogens (using concentrations resulting in maximal [3H]thymidine incorporation). A larger 45Ca2+ uptake was routinely obtained with mitogenic concentrations of A23187, a divalent cation ionophore stimulating T cells. Experiments employing [14C]sucrose and [14C]inulin with control and mitogen-induced lymphocytes showed that the trapped extracellular fluid measurements in the cell pellets should be used to correct the magnitude of the 45Ca2+ uptake measurements. |
