Abstract

The mechanism of hypocapnic constriction of the cerebral vasculature under conditions of altered acid–base balance has not been investigated. As K ATP channels and NO have been implicated in hypocapnic constriction, this study investigated their roles in the constriction due to lowered pCO 2 in hypercapnic rabbits with acute metabolic alkalosis. Metabolic alkalosis was induced acutely following ketamine/xylazine injection. Lowering blood pCO 2 from initial baseline hypercapnic levels to near normocapnic and hypocapnic levels constricted basilar artery by 10.2±0.8% (4) and 16.2±0.6% (44), respectively (means±S.E., n), as determined in an in situ cranial window preparation. The constrictions were maintained for 4–5 h and return of pCO 2 to hypercapnic levels relaxed the constriction. Changing the suffusate pH to either the pH of the cerebral spinal fluid observed during initial baseline hypercapnia or following lowered pCO 2 did not alter the magnitude of constriction due to lowered pCO 2. Neither 0.3 mM N G-monomethyl- l-arginine monoacetate, an NO synthase inhibitor, nor 10 μM glibenclamide, a K ATP channel blocker, altered the magnitude of hypocapnic constriction. These results demonstrated that under conditions of acute metabolic alkalosis and accompanying compensatory hypercapnia, subsequent pCO 2 reduction induces prolonged constriction of the basilar artery that is independent of (1) cerebral spinal fluid pH over a physiologic range, and (2) NO and K ATP channels.

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