Prostaglandins of the E series inhibit monoamine release via EP3 receptors: proof with the competitive EP3 receptor antagonist L-826,266

Prostaglandin E(2) (PGE(2)) and its analogue sulprostone inhibit noradrenaline and serotonin release in rodent tissues. We examined whether the receptor involved is blocked by the EP(3) antagonist L-826,266, whether such receptors also occur on central cholinergic neurones and retinal dopaminergic cells, whether PGE(2) is produced by the degradation of the endocannabinoid virodhamine and whether EP(3) receptor activation stimulates (35)S-GTPgammaS binding. Transmitter release was studied as electrically evoked tritium overflow in superfused tissues preincubated with (3)H-noradrenaline (which in the guinea pig retina labels dopaminergic cells), (3)H-serotonin or (3)H-choline. (35)S-GTPgammaS binding, a measure of G protein activation, was studied in mouse and guinea pig hippocampal membranes. L-826,266 antagonised the effect of sulprostone on noradrenaline release in the rat cortex, yielding a Schild plot-based pA(2) value of 7.56. Apparent pA(2) values in mouse cortex and rat vas deferens (noradrenaline release) and rat cortex (serotonin release) were 7.55, 7.87 and 7.67, respectively. PGE(2) did not affect acetylcholine release in rat brain and dopamine release in guinea pig retina. In seven mice tissues, noradrenaline release was inhibited by sulprostone but not affected by virodhamine. (35)S-GTPgammaS binding was not altered by sulprostone but stimulated by the cannabinoid agonist WIN 55,212-2. Prostaglandins of the E series inhibit monoamine release via EP(3) receptors at which L-826,266 is a competitive antagonist. EP(3) receptors that inhibit transmitter release are not present on central cholinergic neurones and retinal dopaminergic cells. Virodhamine is not converted to PGE(2). An EP(3) receptor model based on (35)S-GTPgammaS binding could not be identified.