Dopaminergic Receptors in Bovine Retina and Their Interaction with Thyrotropin‐Releasing Hormone

Abstract

A superfusion technique was employed to study the release of [³H]dopamine from isolated bovine retina. Only K⁺-stimulated release was observed from both light- and dark-adapted retina; release by other stimuli was from dark-adapted retina only. Light-evoked release of [³H]dopamine from dark-adapted retina was blocked by thyrotropin-releasing hormone (TRH), which has previously been identified as a retinal neuropeptide. TRH itself released small amounts of [³H]dopamine from dark-adapted retina. These results are interpreted as indicating that TRH acts as a modulator of dopaminergic activity in retina through the agency of presynaptic autoreceptors. Evidence of the existence of a feedback inhibition system, probably mediated by dopaminergic autoreceptors, was found by the inclusion of sulpiride, a dopaminergic D₂ receptor antagonist in the perfusate, which, in a stereoselective manner, enhanced spontaneous and light-evoked release of [³H]dopamine. On the other hand, dopamine (1 μM) reduced these effects. TRH did not affect the high-affinity uptake system for dopamine in retina; this, then, could not account for the effects on release. Radioligand binding showed a specific, saturable high-affinity binding system for [³H]TRH, with an apparent K_D of 2.2 nM and a B_max of 23 fmol/mg protein in bovine retinal membranes. Displacement experiments showed that specific [³H]TRH binding was displaced in the nanomolar range by spiperone and in the micromolar range by dopamine, whereas l-(-)-sulpiride was virtually inactive in displacing [³H]TRH. It was concluded that these results indicate the existence of at least three classes of dopaminergic receptor or binding site in retina, some of which can be classed as presynaptic autoreceptors which take part in a modulatory control mechanism for the release of dopamine from amacrine cells.