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(−)Deprenyl and (−)1-phenyl-2-propylaminopentane, [(−) PPAP] act primarily as potent stimulants of action potential — transmitter release coupling in the catecholaminergic neurons

1996; Elsevier BV; Volume: 58; Issue: 10 Linguagem: Inglês

10.1016/0024-3205(96)00014-8

1879-0631

J. Knoll, Ildikó Miklya, B Knoll, Raissa Markó, K. Kelemen,

Memory and Neural Mechanisms

The activity of the catecholaminergic neurons in the rat brain is enhanced significantly 30 min after the subcutaneous injection of very small doses of (−)deprenyl (threshold doses: 0.01 mg/kg for noradrenergic neurons and 0.025 mg/kg for dopaminergjc neurons). As a catecholaminergic activity enhancer (CAE) substance (−)deprenyl is about ten times more potent than its parent compound, (−)methamphetamine. While the (+)methamphetamine is 3–5 times more potent than (−)methamphetamine in releasing catecholamines, the (−)methamphetamine is the more potent CAE substance. The mechanism of the CAE effect of (−)deprenyl and (−)PPAP, a deprenyl-derived substance devoid of MAO inhibitory potency, was studied in rats by measuring: a) the release of catecholamines from striatum, substantia nigra, tuberculum olfactorium and locus coeruleus; b) the stimulation induced release of 3H-noradrenaline from the isolated brain stem; and c) the antagonistic effect against tetrabenazine-induced depression of learning in the shuttle box. The CAE effect was found to be unrelated: a) to the inhibition of MAO activity; b) to the inhibition of presynaptic catecholamine receptors; c) to the inhibition of the uptake of catecholamines; and d) to the release of catecholamines. It was concluded that (−)deprenyl and (−)PPAP act primarily as potent stimulants of action potential-transmitter release coupling in the catecholaminergic neurons of the brain. We show that both (−)deprenyl and (−)PPAP enhance the inward Ca2+ current in sino-auricular fibers of the frog heart. (−)PPAP was much more potent than either (+)PPAP or (−)deprenyl in this test.