Calcium and lymphocyte activation.

The role of ionized calcium in the early phases of activation of human peripheral blood lymphocytes was evaluated by stimulating the cells with a calcium ionophore A23187 (Lilly) or with mitogenic lections over a broad range of extracellular calcium concentrations (< 1 to > 1000 μM). A number of biochemical parameters shown previously to be altered during stimulation of these cells by mitogenic lectins were studied including: 1) amino acid transport, 2) phosphatidylinositol turnover, 3) cyclic nucleotide accumulation, and 4) calcium uptake. The ionophore (0.1–0.5 μg/ml) was shown to produce stimulatory effects in all of these systems with the changes closely simulating those produced by the lectins themselves both in regard to time course and magnitude. A23187 also produced 5–10 fold increases in DNA synthesis as measured at 48–72 hr after exposure of the cells to this agent. The responses to A23187 were shown to be almost completely dependent on the presence of ionized calcium. Since mitogenic lectins are known to stimulate calcium uptake and DNA synthesis appears to require extracellular calcium, the early responses to A23187 suggested that calcium was important both during the early and later phases of lymphocyte activation. However, short time course studies of amino acid transport, cyclic AMP accumulation, and phosphatidylinositol turnover in calcium deficient media failed to provide convincing evidence of calcium dependency in lectin stimulation since the three responses were well preserved (<25% inhibition) in “calcium free” medium containing 1–3 mM ethylene bis (ethylene oxynitrilo) tetraacetic acid (EGTA) (an estimated final Ca²⁺ concentration of <1 μM). Greater than 50% inhibition of the lectin response was seen only when the cells were incubated in calcium free, EGTA-containing medium for 30 min prior to stimulation with lectin. Thus despite the striking ability of A23187 complexed with calcium to mimic the action of mitogenic lectins, its effects may involve more than simple transport of calcium into the cell. A23187 may also exert a direct membrane action as suggested by its ability to produce rapid increases in cAMP and the occurrence of cytotoxicity at 5–10 fold higher concentrations (2–4 μg/ml). However, these data do not entirely exclude a mechanism of ionophore action whereby: 1) mobilization of intracellular stores of calcium and 2) diminished intracellular transport of ionized calcium at extracellular concentrations less than or equal to 1 μM combine to provide an effective stimulus for cellular activation.