Biochemical correlates of motor changes caused by the manipulation of dopamine function in the substantia nigra of the mouse.

2-Di-n-propylamino-5,6-dihydroxytetralin, injected bilaterally into the substantia nigra of the mouse, caused dose-dependent motor inhibition which was associated with decreased levels of DOPAC and increased levels of dopamine in the striatum. (-)Sulpiride, injected into the substantia nigra, antagonised the locomotor depression although the partial antagonism of the elevation in the level of dopamine in the striatum and of the reduction in levels of DOPAC did not achieve significance. The specificity of the action of tetralin on dopamine receptors was shown by the failure of prazosin and yohimbine to antagonise the locomotor depression induced by tetralin and the reduction in levels of DOPAC. The selectivity of the action of tetralin for the dopamine system was shown by its failure to affect levels of noradrenaline, serotonin and 5-hydroxyindoleacetic acid in the striatum. The injection of tetralin into the substantia nigra also caused biochemical changes in limbic areas (nucleus accumbens and tuberculum olfactorium), where the levels of dopamine and DOPAC were elevated, and in the frontal cortex where the levels of DOPAC were reduced. These changes were antagonised by a concomitant injection of (-)sulpiride into the substantia nigra. It is concluded that the action of dopamine agonists in the midbrain can decrease the functional activity in the ascending dopaminergic pathways.