Elevated extracellular glutamate concentrations increased malondialdehyde production in anesthetized rat brain cortex.

Oxidative stress is believed to be involved in the damaging mechanism of excitotoxic insult. Thus, we investigated the effect of elevated extracellular glutamate levels on malondialdehyde production, a common index of lipid peroxidation, in anesthetized rat brain cortex. Elevation of extracellular glutamate levels was achieved either by exogenously perfusing glutamate solutions, or by perfusing L-trans-pyrrolidine-2,4-dicarboxylate (PDC), a competitive inhibitor of glutamate uptake transporter, through an implanted microdialysis probe. Malondialdehyde levels in the microdialysates, which were reacted with thiobarbituric acid, were analyzed by a high performance liquid chromatography system equipped with a fluorescence detector. Perfusion of glutamate (1.5 and 15 mM) resulted in dose-dependent increases in extracellular malondialdehyde production (as high as a 6-fold increase in malondialdehyde production following perfusion of 15 mM glutamate solution). PDC (3.14 and 31.4 mM), not only significantly increased the extracellular glutamate levels in a dose-dependent manner, but also dramatically increased malondialdehyde production (as high as 20-fold increase). These results suggest that excitotoxicity induces oxidative stress in anesthetized rat brain cortex, as evidenced by the glutamate-induced increase in malondialdehyde production.