Inability of volatile anesthetics to inhibit oxygen–glucose deprivation-induced glutamate release via glutamate transporters and anion channels in rat corticostriatal slices

Abstract

Ischemia-induced extracellular glutamate accumulation and the subsequent excitotoxicity contribute significantly to ischemic brain injury. Volatile anesthetics have been shown to reduce ischemic brain injury. Here, we showed that oxygen–glucose deprivation (OGD, to simulate ischemia in vitro) increased extracellular glutamate accumulation in the corticostriatal slices of adult rats. This increased accumulation was reduced by dihydrokinate, a glutamate transporter type 2 inhibitor, and 4,4′-dinitrostilbene-2,2′-disulfonic acid, a blocker for volume-activated anion channels. The volatile anesthetics isoflurane, sevoflurane and desflurane at clinically relevant concentrations did not affect the OGD-induced extracellular glutamate accumulation from brain slices of adult rats. Isoflurane also did not change the OGD-induced extracellular glutamate accumulation from brain slices of newborn/young rats. These results suggest that the OGD-induced glutamate accumulation involves reversed transport of glutamate via glutamate transporters and volume-activated anion channels. Volatile anesthetics may not inhibit this extracellular glutamate accumulation.