Mitochondrial potassium channel opener diazoxide preserves neuronal-vascular function after cerebral ischemia in newborn pigs

Domoki, Ferenc and Perciaccante, J. V. and Veltkamp, R. and Bari, Ferenc (1999) Mitochondrial potassium channel opener diazoxide preserves neuronal-vascular function after cerebral ischemia in newborn pigs. STROKE, 30 (12). pp. 2713-2718. ISSN 0039-2499

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Abstract

Background and Purpose-N-Methyl-D-aspartate (NMDA) elicits neuronally mediated cerebral arteriolar vasodilation that is reduced by ischemia/reperfusion (I/R). This sequence has been preserved by pretreatment with the ATP-sensitive potassium (K-ATP) channel opener aprikalim, although the mechanism was unclear. In the heart, mitochondrial K-ATP channels (mitoK(ATP)) are involved in the ischemic preconditioning-like effect of K+ channel openers. We determined whether the selective mitoK(ATP) channel opener diazoxide preserves the vascular dilation to NMDA after I/R. Methods-Pial arteriolar diameters were determined with the use of closed cranial window/intravital microscopy in anesthetized piglets. Vascular responses to NMDA were assessed before and 1 hour after 10 minutes of global cerebral ischemia induced by raising intracranial pressure. Subgroups received 1 of the following pretreatments before I/R: vehicle; 1 to 10 mu mol/L diazoxide; and coapplication of 100 mu mol/L 5-hydroxydecanoic acid (5-HD), a K-ATP antagonist with diazoxide. Results-NMDA-induced dose-dependent pial arteriolar dilation was not affected by diazoxide treatment only but was severely attenuated by I/R, In contrast, diazoxide dose-dependently preserved the NMDA vascular response after I/R; at 10 mu mol/L, diazoxide arteriolar responses were unaltered by I/R. The effect of diazoxide was antagonized by coapplication of 5-HD with diazoxide. Percent preservation of 100 mu mol/L NMDA-induced vasodilation after I/R was 53 +/- 19% (mean +/- SEM, n = 8) in vehicle-treated controls versus 55 +/- 10%, 85 +/- 5%, and 99 +/- 15% in animals pretreated with 1, 5, and 10 mu mol/L diazoxide (n = 8, n = 8, and n = 12, respectively) and 60 +/- 15% in the group treated with 5-HD+diazoxide (n = 5). Conclusions-The mitoK(ATP) channel opener diazoxide in vivo preserves neuronal function after I/R, shown by pial arteriolar responses to NMDA, in a dose-dependent manner. Thus, activation of mitoK(ATP) channels may play a role in mediating the protective effect of other K+ channel openers.

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