| Abstract: | Phagocytic cells can be primed for enhanced stimulated release of superoxide anion (O2-) by exposure to a variety of biologic agents, including gamma-interferon and lipopolysaccharide. We examined the role of calcium ion in this priming, using the calcium ionophore ionomycin. Preincubation with ionomycin, 1 to 10 nM, primed human neutrophils to release up to 7-fold more O2- during stimulation with 1 microM formyl-methionyl-leucyl-phenylalanine (f-Met-Leu-Phe). With 160 nM phorbol myristate acetate as stimulus, ionomycin caused a doubling of O2- production in mouse peritoneal macrophages. Incubation of phagocytes with ionomycin at priming concentrations did not directly stimulate O2- release. Priming of neutrophils occurred in 1-2 min and was associated with a marked reduction in the lag time for O2- release after f-Met-Leu-Phe stimulation and with an increase in the rate of O2- production. Kinetic analysis of NADPH-dependent O2(-)-producing activity in sonicates of resting human neutrophils incubated with sodium dodecyl sulfate suggested that modification of the enzyme responsible for the respiratory burst was not responsible for priming. Priming of neutrophils with ionomycin had no apparent effect on either the activity or subcellular distribution of protein kinase C. The effect of ionomycin on the cytosolic free calcium concentration (Ca2+]c) was assessed in neutrophils using the calcium-sensitive fluorescent dye fura-2. Ionomycin at priming concentrations caused an approximate doubling of the base-line Ca2+]c. When neutrophils were exposed to various concentrations of ionomycin, a parallel rise in Ca2+]c and priming was observed. A rise in Ca2+]c of approximately 0.8 microM caused half-maximal priming. These results suggest that an increase in Ca2+]c is not sufficient to initiate release of O2-, but they support the concept that Ca2+ can serve as a second messenger in this event. |
