Abstract

Both glibenclamide and riluzole reduce necrosis and improve outcome in rat models of spinal cord injury (SCI). In SCI, gene suppression experiments show that newly upregulated sulfonylurea receptor 1 (Sur1)-regulated NCCa-ATP channels in microvascular endothelial cells are responsible for “persistent sodium currents” that cause capillary fragmentation and “progressive hemorrhagic necrosis”. Glibenclamide is a potent blocker of Sur1-regulated NCCa-ATP channels (IC50, 6–48nM). Riluzole is a pleotropic drug that blocks “persistent sodium currents” in neurons, but in SCI, its molecular mechanism of action is uncertain. We hypothesized that riluzole might block the putative pore-forming subunits of Sur1-regulated NCCa-ATP channels, Trpm4. In patch clamp experiments, riluzole blocked Sur1-regulated NCCa-ATP channels in endothelial cells and heterologously expressed Trpm4 (IC50, 31μM). Using a rat model of cervical SCI associated with high mortality, we compared the effects of glibenclamide and riluzole administered beginning at 3h and continuing for 7days after impact. During the acute phase, both drugs reduced capillary fragmentation and progressive hemorrhagic necrosis, and both prevented death. At 6weeks, modified (unilateral) Basso, Beattie, Bresnahan locomotor scores were similar, but measures of complex function (grip strength, rearing, accelerating rotarod) and tissue sparing were significantly better with glibenclamide than with riluzole. We conclude that both drugs act similarly, glibenclamide on the regulatory subunit, and riluzole on the putative pore-forming subunit of the Sur1-regulated NCCa-ATP channel. Differences in specificity, dose-limiting potency, or in spectrum of action may account for the apparent superiority of glibenclamide over riluzole in this model of severe SCI.

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