The dissociation of exocytosis and respiratory stimulation in leucocytes by ionophores

Abstract

By exploiting the unique characteristics of three ionophores, experimental conditions were found which permit the dissociation of respiratory stimulation from secretion in polymorphonuclear leucocytes. A marked stimulation of respiration was produced by ionophore X537A, which binds and transports both alkali-earth and alkali cations. The stimulatory activity of this ionophore was the same at either high or low Na⁺/K⁺ ratios in the medium and was virtually unaffected by extracellular Ca²⁺. A slight stimulation of oxygen consumption was also caused by the K⁺-selective ionophore valinomycin and by ionophore A23187, which complexes and transfers bivalent cations. Ionophore X537A and valinomycin were unable to stimulate selective release of granuleassociated β-glucuronidase and gradually increased cell fragility, as monitored by increased leakage of lactate dehydrogenase. Ionophore A23187 slightly increased exocytosis of β-glucuronidase. In a Mg²⁺-free medium, Ca²⁺, added simultaneously with ionophore A23187, greatly enhanced respiration and secretion of the granule enzyme. If Ca²⁺ was added a few minutes after the ionophore, exocytosis occurred, but no respiratory burst was observed. If the latter experiment was repeated in the presence of extracellular Mg²⁺, both secretion and respiration were stimulated. This effect was not produced by Mn²⁺ or Ba²⁺. It is proposed that Ca²⁺ is required for triggering selective secretion of granule enzymes from leucocytes is caused by an intracellular redistribution of cations, which may invovle Mg²⁺-dependent mechanisms.