Exposure of human neutrophils to exogenous nucleotides causes elevation in intracellular calcium, transmembrane calcium fluxes, and an alteration of a cytosolic factor resulting in enhanced superoxide production in response to FMLP and arachidonic acid

Abstract

Abstract Exposure of human neutrophils to micromolar concentrations of both hydrolyzable and nonhydrolyzable purine nucleotides caused the generation of transient rises in intracellular calcium (Ca2+), Ca2+ fluxes across the membrane, and primed the cells for enhanced production of superoxide (O2-) when subsequently exposed to agonists such as FMLP and arachidonic acid. The neutrophils were most sensitive to adenosine triphosphate (ATP) and ATP-gamma-S, which produced Ca2+ transients and enhanced O2- production at concentrations as low as 1 to 5 mumol/L, with a doubling of O2- generation at 25 to 50 mumol/L. Adenosine diphosphate (ADP), guanosine triphosphate (GTP), and 5′- adenylylimidodiphosphate (AMP-PNP) required approximately 10-fold higher concentrations to cause similar effects. Adenosine did not cause Ca2+ fluxes or a Ca2+ transient and was inhibitory of O2- production. There was a strong correlation between a nucleotide's ability to generate a Ca2+ response and its ability to enhance O2- generation. Nitrogen cavitation and subcellular fractionation of the neutrophils after a brief exposure to ATP, ATP-gamma-S, and AMP-PNP revealed that the enhanced O2- generating capacity was stable and detectable in a cell-free assay system. By combining variously treated cytosolic and membrane fractions, it was found that the enhanced O2- production was attributable to a modification of a component(s) of the cytosol.