Kinetics and Mechanism of ATP-Dependent IL-1β Release from Microglial Cells

Abstract

Endotoxin-dependent release of IL-1β from mouse microglial cells is a very inefficient process, as it is slow and leads to accumulation of a modest amount of extracellular cytokine. Furthermore, secreted IL-1β is mostly in the procytokine unprocessed form. Addition of extracellular ATP to LPS-primed microglia caused a burst of release of a large amount of processed IL-1β. ATP had no effect on the accumulation of intracellular pro-IL-1β in the absence of LPS. In LPS-treated cells, ATP slightly increased the synthesis of pro-IL-1β. Optimal ATP concentration for IL-1β secretion was between 3 and 5 mM, but significant release could be observed at concentrations as low as 1 mM. At all ATP concentrations IL-1β release could be inhibited by increasing the extracellular K+ concentration. ATP-dependent IL-1β release was also inhibited by 90 and 60% by the caspase inhibitors YVAD and DEVD, respectively. Accordingly, in ATP-stimulated microglia, the p20 proteolytic fragment derived from activation of the IL-1-β-converting enzyme could be detected by immunoblot analysis. These experiments show that in mouse microglial cells extracellular ATP triggers fast maturation and release of intracellularly accumulated IL-β by activating the IL-1-β-converting enzyme/caspase 1.