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VASCULAR BIOLOGY

Regulation of P2X₇-induced pore formation and cell death in pericyte-containing retinal microvessels

¹Department of Ophthalmology and Visual Science and ²Department of Molecular and Integrative Physiology, University of Michigan, Ann Arbor, Michigan

Submitted 4 August 2004 ; accepted in final form 18 October 2004

The purpose if this study was to elucidate how extracellular ATP causes cell death in the retinal microvasculature. Although ATP appears to serve as a vasoactive signal acting via P2X₇ and P2Y₄ purinoceptors, this nucleotide can kill microvascular cells of the retina. Because P2X₇ receptor activation causes transmembrane pores to form and microvascular cells to die, we initially surmised that pore formation accounted for ATP's lethality. To test this hypothesis, we isolated pericyte-containing microvessels from rat retinas, assessed cell viability using Trypan blue dye exclusion, detected pores by determining the uptake of the fluorescent dye YO-PRO-1, measured intracellular Ca²⁺ with the use of fura-2, and monitored ionic currents via perforated patch pipettes. As predicted, ATP-induced cell death required P2X₇ receptor activation. However, we found that pore formation was minimal because ATP's activation of P2Y₄ receptors prevented P2X₇ pores from forming. Rather than opening lethal pores, ATP kills via a mechanism involving voltage-dependent Ca²⁺ channels (VDCC). Our experiments suggest that when high concentrations of ATP caused nearly all microvascular P2X₇ receptor channels to open, the resulting profound depolarization opened VDCC. Consistent with lethal Ca²⁺ influx via VDCC, ATP-induced cell death was markedly diminished by the VDCC blocker nifedipine or a nitric oxide (NO) donor that inhibited microvascular VDCC. We propose that purinergic vasotoxicity is normally prevented in the retina by NO-mediated inhibition of VDCC and P2Y₄-mediated inhibition of P2X₇ pore formation. Conversely, dysfunction of these protective mechanisms may be a previously unrecognized cause of cell death within the retinal microvasculature.

calcium channels; capillaries; purinoceptors; vasotoxicity

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