Effects of imipramine on tyrosine and tryptophan are mediated by beta-adrenoceptor stimulation

Imipramine (IMI; 20 mg/kg) in rats decreased the plasma tyrosine concentration by 21% (90 min), whereas norepinephrine (NE; 1.25 mg/kg) raised it by 72% (40 min). Since NE raised plasma tyrosine by stimulating alpha-adrenoceptors, as shown by phenoxybenzamine (PB) completely abolishing this increase, an experiment was done to find out whether IMI lowered plasma tyrosine by blocking alpha-adrenoceptors. In contrast to PB, IMI pretreatment failed to alter the NE-induced elevation in plasma tyrosine, suggesting that at this dose IMI is not an effective alpha-adrenergic antagonist in vivo. Thus, IMI would not appear to reduce plasma tyrosine by blocking alpha-adrenoceptors. In a separate experiment, propranolol blocked the ability of IMI to lower plasma tyrosine. Propranolol also prevented a 17% elevation in brain tryptophan levels induced by IMI but did not alter the 29% decrease in plasma tryptophan. PB by itself decreased plasma tyrosine, but this decrease was not greater by additionally treating with IMI. Salbutamol (10 mg/kg), a beta 2 agonist, lowered plasma tyrosine to 76% and raised brain tryptophan to 143% of control. These results suggest that IMI decreases tyrosine concentrations in plasma and raises tryptophan in brain by stimulating beta-adrenoceptors.