DOES DOPAMINE EXERT A TONIC INHIBITORY CONTROL ON THE RELEASE OF STRIATAL ACETYLCHOLINE IN-VIVO

The role of dopamine transmission on striatal acetylcholine release wa s investigated by using brain microdialysis. Blockade of dopamine D-2 receptors with(-)-sulpiride or haloperidol increased acetylcholine rel ease to a maximum of 80% (after 50 and 0.5 mg/kg, respectively). This effect was prevented by blockade of dopamine D-1 receptors with 0.5 mg /kg SCH 39166 or 0.1 mg/kg SCH 23390, or by depletion of dopamine stor es after 5 mg/kg reserpine + 150 mg/kg alpha-methyltyrosine. Treatment with SCH 39166, SCH 23390 or reserpine + alpha-methyltyrosine reduced acetylcholine release by about a maximum of 30%. Stimulation of dopam ine D-2 receptors with LY 171555 (quinpirole) at a low, sedative dose (0.05 mg/kg) reduced acetylcholine release by about 30% with no furthe r reduction at higher doses up to 1 mg/kg. Moreover, LY 171555 (0.1 mg /kg) given to SCH 39166 (0.5 mg/kg)- or SKF 38393 (20 mg/kg)-pretreate d rats did not decrease acetylcholine release, suggesting that its eff ect is through a dopamine D-1 receptor-mediated mechanism. In contrast , in dopamine-depleted rats, LY 171555 0.1 mg/kg became more effective in decreasing acetylcholine release (about 70%) also after SCH 39166 (0.5 mg/kg) pretreatment (about 80%), thus acting independently of dop amine D-1 receptor mechanisms. These results indicate that, in normal circumstances, endogenous dopamine facilitates striatal acetylcholine release through dopamine D-1 receptors. The results argue against the commonly accepted view that dopamine D-2 receptors exert a tonic inhib itory control on acetylcholine release. Moreover, they suggest that do pamine D-2 receptors, in circumstances of dopamine depletion, may exer t an inhibitory control on acetylcholine release independent of dopami ne D-1 receptor mechanisms.