Abstract
The “trace” amines 2-phenylethylamine (PE), p-tyramine (p-TA) and tryptamine (T) have been implicated in the etiology of a number of psychiatric disorders, including depression (Dewhurst, 1968; Boulton and Milward, 1971; Sabelli and Mosnaim, 1974; Sandler et al., 1979). It is now well known that monoamine oxidase (MAO) inhibitors, drugs that are used in treatment of psychiatric disorders, cause rather dramatic increases in brain concentrations of these trace amines (Boulton et al., 1973; Axelrod and Saavedra, 1975; Philips et al., 1980; Philips and Boulton, 1979; McKim et al., 1980). However, these reports on MAO inhibitors are acute studies, and there is a paucity of information available on the effects of chronic administration of MAO inhibitors on brain levels of these compounds. In recent years, we have conducted experiments on the effects of chronic injection of two clinically efficacious MAO inhibitors, tranylcypromine (TCP) and phenelzine (PLZ) on brain levels of PE (Baker et al., 1982), p-TA (Baker et al., 1983) and T in the rat. The findings from these experiments are reviewed here.
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References
Axelrod J. and Saavedra J. M. (1974) Octopamine, phenylethanolamine, phenylethylamine and tryptamine in the brain, in Aromatic Amino Acids in the Brain, Ciba Foundation Symp. 22 (new series), pp. 51–59. Elsevier, Amsterdam.
Baker G. B., Coutts R. T., and LeGatt D. F. (1983) Levels of p-tyramine in rat brain after chronic administration of MAO-inhibiting antidepressants. Progr. Neuro-Psychopharmacol. Biol. Psychiat.(in press).
Baker G. B., Coutts R. T., and Martin I. L. (1981) Measurement of amines in the central nervous system using gas chromatography with electron-capture detection. Progr. Neurobiol. 17, 1–21.
Baker G. B., Le Gatt D. F., and Coutts R. T. (1982) Effects of acute and chronic administration of phenelzine on 2-phenylethylamine levels in rat brain. Proc. West Pharmacol. Soc. 25, 417–420.
Boulton A. A. (1976) Cerebral aryl alkyl aminergic mechanisms, in Trace Amines and the Brain ( Usdin E. and Sandler M., eds), pp. 21–40. Marcel Dekker, New York.
Boulton A. A. and Milward L. (1971) Separation, detection and quantitative analysis of urinary 3-phenylethylamine. J. Chromatogr. 57, 287–296.
Boulton A. A., Philips S. R., and Durden D. A. (1973) The analysis of certain amines in tissues and body fluids as their dansyl derivatives. J. Chromatogr. 82, 137–142.
Dewhurst W. G. (1968) New theory of cererbral function and its clinical application. Nature 218, 1130.
Dyck L. E., Durden D. A., and Boulton A. A. (1981). 1,1, 2,2-Tetradeutero-2-phenylethylhydrazine (D4PEH) is a more potent drug than 2-phenylethylhydrazine (PEH). Proc. 8th Meet. Int. Soc. Neurochem., pp. 249.
Grahame-Smith D. G. (1971) Studies in vivo on the relationship between brain tryptophan, brain 5-HT synthesis, and hyperactivity in rats treated with a monoamine oxidase inhibitor and L-tryptophan. J. Neurochem. 18, 1053.
McKim H. R., Calverley D. G., Philips S. R., Baker G. B. and Dewhurst W. G. (1980) The effects of tranylcypromine on the levels of some cerebral amines in rat diencephalon, in Recent Advances in Canadian Neuropsychopharmacology ( Grof P. and Saxena B., eds), pp. 7–13. Karger, Basel.
Philips S. R., Baker G. B., and McKim H. R. (1980) Effects of tranylcypromine on the concentrations of some trace amines in the diencephalon and hippocampus of the rat. Experientia 36, 241–242.
Philips S. R. and Boulton A. A. (1979) The effect of monoamine oxidase inhibitors on some arylalkylamines in rat striatum. J. Neurochem. 33, 259–267.
Rafaelson O. J. (1976), in Monoamine Oxidase and its Inhibition, Ciba Foundation Symp., 39 (new series), pp. 294. Elsevier, Amsterdam.
Robinson D. S., Campbell I. C., Walker M., Statham N. H., Lovenberg W., and Murphy D. L. (1979) Effects of chronic monoamine oxidase inhibitor treatment on biogenic amine metabolism in rat brain. Neuropharmacology 18, 771–776.
Sabelli H. C. and Mosnaim A. D. (1974) Phenylethylamine hypothesis of affective behavior. Am. J. Psychiat. 131, 695–699.
Sandler M., Ruthven C. R. J., Goodwin B. L., and Reynolds G. P. (1979) Deficient production of tyramine and octopamine in depression. Nature 278, 357.
Tabakoff B., Moses F., Philips S. R., and Boulton A. A. (1977). Effects of tranylcypromine and pargyline on brain tryptamine. Experientia 33, 380–381.
Wurtman R. J. and Axelrod J. (1963) A sensitive and specific assay for the estimation of monoamine oxidase. Biochem. Pharmac. 12, 1439–1440.
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Baker, G.B., LeGatt, D.F., Coutts, R.T. (1984). A Comparison of the Effects of Acute and Chronic Administration of Phenelzine and Tranylcypromine on Brain Concentrations of 2-Phenylethylamine, p-Tyramine and Tryptamine in the Rat. In: Boulton, A.A., Baker, G.B., Dewhurst, W.G., Sandler, M. (eds) Neurobiology of the Trace Amines. Humana Press. https://doi.org/10.1007/978-1-4612-5312-9_22
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DOI: https://doi.org/10.1007/978-1-4612-5312-9_22
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