A Search for Receptors Modulating the Release of γ‐[3H]Aminobutyric Acid in Rabbit Caudate Nucleus Slices

Abstract

Various putative striatal transmitters and related compounds were studied for their effects on the release of γ-aminobutyric acid (GABA) from slices of the head of the rabbit caudate nucleus. The slices were preincubated with [³H]GABA and then superfused and stimulated electrically at 5 or 20 Hz. Aminooxyacetic acid was present throughout. The main changes observed were the following. The basal and, less consistently, the electrically evoked overflow of [³H]GABA were enhanced by 3,4-dihydroxyphenylethylamine (dopamine), an effect not blocked by cis-flupentixol or domperidone and not mimicked by apomorphine and D₁-selective agonists. The electrically evoked overflow was diminished by 5-hydroxytryptamine (serotonin); the inhibition was prevented by methiothepin. The basal but not the electrically evoked overflow was enhanced by carbachol; acetylcholine and nicotine also accelerated the basal out-flow whereas oxotremorine caused no consistent change; the effects of carbachol and acetylcholine were blocked by hexamethonium but not by atropine or by tetrodotoxin. These findings indicate that the GABA neurons in the caudate nucleus may be stimulated by dopamine, although the receptor type involved remains unclear; inhibited by serotonin; and stimulated by acetylcholine acting via a nicotine receptor. However, all drug effects observed were relatively small. No evidence was obtained for autoreceptors, α₂-adrenoceptors or receptors for opioids, adenosine or substance P at the GABA neurons.