Abstract

Abstract The effect of caffeine and aminophylline on the turnover of noradrenaline and dopamine in the mouse brain was studied by two different methods: estimation of the rate of disappearance of the transmitter after inhibition of synthesis and measurement of the accumulation of [3H]noradrenaline (3H-NA) and [3H]dopamine (3H-DA) after administration of [3H]tyrosine. After inhibition of the tyrosine hydroxylase the xanthines had little or no effect on the disappearance of both catecholamines. After inhibition of dopamine β-hydroxylase, both xanthines increased the rate of disappearance of noradrenaline. When given in sufficiently large doses both xanthines increased the yield of 3H-NA and 3H-DA from [3H]tyrosine. Pretreatment with a monoamine oxidase inhibitor caused a decrease in the yield of the tritiated catecholamines, which could be counteracted by the xanthines. Stimulation of the noradrenaline receptors by clonidine appeared to cause a decrease in the yield of 3H-NA and an increase in the amount of 3H-DA formed from [3H]tyrosine. Conversely, stimulation of the dopamine receptors by apomorphine caused a decrease in the yield of 3H-DA and an increase in that of 3H-NA. Also, in caffeine-treated animals, clonidine and apomorphine decreased the yield of 3H-NA and 3H-DA respectively. However clonidine could not increase 3H-DA concentrations, nor apomorphine the 3H-NA concentrations more than did caffeine alone. Thus, caffeine and aminophylline appear to increase the rate of turnover of both catecholamines in the brain.