Comparison of the Binding of [3H]Spiperone and [3H]Domperidone in Homogenates of Mammalian Retina and Caudate Nucleus

Abstract

The specific binding of [3H]spiperone and [3H]domperidone, as defined by 1 .mu.M-(+)butaclamol, was compared in homogenates of bovine retina and caudate nucleus. Scatchard analyses of saturation data for [3H]spiperone binding yielded dissociation constants (Kd) of 0.35 nM in the retina and 0.64 nM in the caudate nucleus. Comparison of the maximum number of binding sites (Bmax) present in each tissue indicated that the density of sites in bovine caudate nucleus (270 f[femto]mol/mg protein) was approximately 3 .times. higher than in bovine retina (92 fmol/mg protein). This difference was even more marked in guinea pig tissues, with a ratio of 7:1 between corpus striatum and retina. The pharmacological analysis of [3H]spiperone binding in both the bovine retina and caudate nucleus indicated an interaction with dopaminergic rather than serotonergic sites. Inhibition curves obtained to dopaminergic agonists in the bovine retina were significantly steeper than those observed in the bovine caudate nucleus, as reflected in the greater Hill coefficients obtained for these agents in the retina. Only a small amount of specific [3H]domperidone binding done binding was observed in either the bovine caudate nucleus or the guinea pig striatum, while no specific [3H]domperidone binding was detectable in homogenates of either bovine or guinea pig retina. Apparently the retina possesses only a small population of dopaminergic D2 sites and that these binding sites may differ from those present in the caudate nucleus.