ALTERATIONS IN RECEPTORS CONTROLLING DOPAMINE SYNTHESIS AFTER CHRONIC ETHANOL INGESTION

The influence of acute and chronic ethanol treatment and withdrawal on regulation of dopamine synthesis in striatal and mesolimbic areas of mouse brain was evaluated. Tyrosine hydroxylase activity was estimated by measuring in vivo DOPA accumulation after inhibition of aromatic amino acid decarboxylase. Eight hours after a single (3 g/kg) dose of ethanol, DOPA synthesis was increased and pimozide, a dopamine receptor antagonist, stimulated DOPA synthesis to the same degree in ethanol‐treated and control animals. On the other hand, 8 h after withdrawal of animals from chronic ethanol treatment, endogenous dopamine synthesis was the same in ethanol‐withdrawn and control animals, but the stimulation of dopamine synthesis produced by low doses of pimozide or haloperidol was significantly less in the animals that had consumed ethanol. This effect was even more apparent at 24h after withdrawal; by 3 days after withdrawal the decreased response of ethanol‐withdrawn animals to the administration of dopamine receptor blockers was no longer statistically significant. At all time points tested, high doses of pimozide or haloperidol stimulated DOPA synthesis equally in control and ethanol‐withdrawn animals. Chronic ethanol treatment and withdrawal may alter the coupling between dopamine receptors which regulate dopamine synthesis and tyrosine hydroxylase.