Journal
SYNAPSE
Volume 59, Issue 5, Pages 290-298Publisher
WILEY
DOI: 10.1002/syn.20241
Keywords
schizophrenia; glutamate; indomethacin; parecoxib; d-cycloserine; L-701,324
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Kynurenic acid (KYNA) is an endogenous glutamate-receptor antagonist with a preferential action at the glycine-site of the NMDA-receptor. In the present in vivo study, the importance of brain KYNA to modulate the activity of dopamine (DA) neurons in the ventral tegmental area (VTA) was analyzed by utilizing the decrease in brain KYNA formation induced by the cyclooxygbnase (COX)-2 inhibitor parecoxib. A reduction in brain KYNA concentration (39-44%) by parecoxib (25 mg/kg, i.v., 1 h or, i.p., 3.5 h) was associated with a decreased firing rate and burst firing activity. In concordance, an increase in brain KYNA concentration (150-300%), induced by the COX-1 inhibitor indomethacin (50 mg/kg, i.v., 1 h or, i.p., 3.5 h), produced opposite effects, that is, increased firing rate and burst firing activity. The decrease and increase in neuronal firing of VTA DA neurons by the COX-inhibitors was reversed by L-701,324 (antagonist at the NMDA-glycine site; 0.06-2 mg/kg, i.v.) and by D-cycloserine (partial agonist at the NMDA-glycine site; 2-32 mg/kg, i.v.), respectively. In addition, the parecoxib-induced decrease in firing rate and burst firing activity was effectively blocked by pretreatment with kynurenine (5 mg/kg, i.p., 30 min), the immediate precursor of KYNA. Present results suggest that the action of COX-inhibitors on the firing of VTA DA neurons are linked to their effects on KYNA formation and that endogenous KYNA is tonically modulating the neuronal activity of VTA DA neurons. Such a modulatory action of KYNA should be of importance for the functioning of mesocorticolimbic DA pathway.
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