Presynaptic dopamine and serotonin receptors modulating tyrosine hydroxylase activity in synaptosomes of the nucleus accumbens of rats.

Tyrosine hydroxylase (TH) activity was determined by measuring the formation of [3H]DOPA from [3,5-3H]tyrosine in the crude synaptosomal fraction of the nucleus accumbens under conditions preventing dopamine reuptake in 30 mM K+-containing medium. TH seems to be allosterically activated under depolarizing conditions: a 4.4 fold decrease of the Km value for tyrosine of the synaptosomal TH was observed. Synaptosomal TH activity was inhibited concentration dependently by dopamine and apomorphine resulting in IC50 values of 0.4 and 0.25 microM, respectively. The maximal inhibitory effects of dopamine as well as apomorphine were about 50% of the controls. The dopamine-induced inhibition was completely antagonized by neuroleptics. The rank order of antagonistic potencies was haloperidol greater than clozapine greater than sulpiride (with increasing EC50); methiothepine was ineffective. Moreover, synaptosomal TH activity was inhibited by serotonin in a concentration-dependent manner (IC50 = 0.8 microM). This inhibition was completely antagonized by methiothepine while, on the other hand, haloperidol was ineffective. The experimental system demonstrated here appears to be suitable for estimating the presynaptic dopamine and serotonin antagonistic potencies of drugs.