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Philip Bradley

Medical Research Council

2 papers in the library · 218 citations · publishing 1970-1974

Papers

Antagonism of 5‐hydroxytryptamine by LSD 25 in the central nervous system: a possible neuronal basis for the actions of LSD 25

British Journal of Pharmacology October 1, 1970 R.j. Boakes, Philip Bradley, Ian Briggs et al. 164 citations

Lysergic acid diethylamide (LSD) antagonizes excitation produced by serotonin (5-HT) and glutamate on certain brain stem neurons in decerebrate cats. When applied directly or intravenously, LSD blocked 5-HT-induced excitation and also blocked glutamate excitation on neurons that could be excited by 5-HT. However, LSD did not affect inhibitory actions of 5-HT, glutamate effects on neurons inhibited by 5-HT, or actions of acetylcholine, noradrenaline, homocysteic acid, glycine, or GABA. Methysergide was a weaker antagonist, and 2-bromo-LSD rarely showed antagonism. The authors propose that antagonism to 5-HT and glutamate excitation may underlie LSD's psychotomimetic effects.

FURTHER STUDIES ON THE MODE OF ACTION OF PSYCHOTOMIMETIC DRUGS: ANTAGONISM OF THE EXCITATORY ACTIONS OF 5‐HYDROXYTRYPTAMINE BY METHYLATED DERIVATIVES OF TRYPTAMINE

British Journal of Pharmacology March 1, 1974 Philip Bradley, Ian Briggs 54 citations

Three psychotomimetic tryptamines—DMT, bufotenine, and 5-MeODMT—specifically blocked serotonin-induced excitations of single neurons in the brain stem of anesthetized rats and decerebrate cats, similar to LSD. The non-psychotomimetic 5-MeOT had no such antagonistic effect. Unlike LSD, the psychotomimetic tryptamines rarely blocked glutamate effects, suggesting separate but spatially close serotonin and glutamate receptors. These tryptamines could mimic serotonin's actions on neurons, but the psychotomimetic ones were less potent than 5-MeOT. The serotonin-mimicking effects were not due to serotonin release, as they persisted after depletion of serotonin by p-chlorophenylalanine or reserpine, indicating direct action on serotonin receptors. The findings support the hypothesis that LSD-like psychotomimetics act by antagonizing serotonin in the lower brain stem, not by stimulating serotonin receptors.