Priming and release of cytokine IL-1β in microglial cells from the retina.

The P2X7 receptor (P2X7R) for extracellular ATP is implicated in several forms of retinal degeneration, including diabetic retinopathy, age-related macular degeneration, and glaucoma. P2X7R stimulation can trigger release of master cytokine IL-1β from microglia in the brain and from macrophages, but evidence of release from retinal microglia is indirect. Isolated mouse and rat retinal microglia, and wholemounts from CX3CR1 mice, were examined to determine if ATP induced IL-1β release directly from retinal microglial cells and if it also primed expression of IL-1β on an mRNA and protein level. Isolated retinal microglia were ramified and expressed low levels of polarization markers unless provoked. Over 90% of isolated microglial cells expressed P2X7R, with cytoplasmic Ca elevation following receptor stimulation. ATP induced a dose-dependent release of IL-1β from primed microglial cells that was blocked by P2X7R antagonist A839977 and emulated by agonist BzATP. P2X7R stimulation also primed Il1b mRNA in isolated microglia cells. BzATP increased IL-1β immunostaining and GFP fluorescence throughout lamina of retinal wholemounts from CX3CR1 mice. Some of the IL-1β and GFP signals colocalized, particularly in the outer retina, and in projections extending distally through photoreceptor layers. The inner retina had more microglia without IL-1β, and more IL-1β staining without microglia. Substantial IL-1β release was also detected from rat retinal microglial cells, but not optic nerve head astrocytes. In summary, this study implicates microglial cells as a key source of released IL-1β when levels of extracellular ATP are increased following retinal damage, and suggest a greater participation in the outer retina.