The activation of P2X7 receptor induces cathepsin D-dependent production of a 20-kDa form of IL-1β under acidic extracellular pH in LPS-primed microglial cells
- PMID: 21395581
- DOI: 10.1111/j.1471-4159.2011.07240.x
The activation of P2X7 receptor induces cathepsin D-dependent production of a 20-kDa form of IL-1β under acidic extracellular pH in LPS-primed microglial cells
Abstract
The potent pro-inflammatory cytokine, interleukin-1β (IL-1β), is synthesized as an inactive 33-kDa precursor (pro-IL-1β) and is processed by caspase 1 into the bioactive 17-kDa mature form. The P2X7 receptor, an ATP-gated cation channel, plays an essential role in caspase 1 activation, production and release of mature bioactive 17-kDa form. We recently reported ATP induces the release of an unconventional 20-kDa form of IL-1β (p20-IL-1β) from lipopolysaccharide-primed microglial cells. Emerging evidence suggests physiological relevance for p20-IL-1β; however, the underlying mechanisms for its production and release remain unknown. Here, we investigated the pathways involved in the ATP-induced production of p20-IL-1β using lipopolysaccharide-primed mouse microglial cells. The activation of P2X7 receptor by ATP triggered p20-IL-1β production under acidic extracellular conditions. ATP-induced p20-IL-1β production was blocked by pepstatin A, a potent inhibitor of the lysosomal protease, cathepsin D. The removal of extracellular Ca(2+) inhibited the p20-IL-1β production as well as ATP-induced cathepsin D release via lysosome exocytosis. The acidic extracellular pH also facilitated the dilatation of membrane pore after ATP stimulation. Since facilitation of pore dilatation results in cytolysis accompanied with cytoplasmic pro-IL-1β leakage, our data suggest the leaked pro-IL-1β is processed into p20-IL-1β by cathepsin D released after ATP stimulation under acidic extracellular conditions.
© 2011 The Authors. Journal of Neurochemistry © 2011 International Society for Neurochemistry.
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