Distributions of GABAA, GABAB, and benzodiazepine receptors in the forebrain and midbrain of pigeons

Abstract

Autoradiographic and immunohistochemical methods were used to study the distributions of GABA_A, GABA_B and benzodiazepine(BDZ) receptors in the pigeon fore‐ and midbrain. GABA_A, GABA_B and BDZ binding sites were found to be abundant although heterogeneously distributed in the telencephalon. The primary sensory areas of the pallium of the avian telencephalon (Wulst and dorsal ventricular ridge) tended to be low in all three binding sites, while the surrounding second order belt regions of the pallium were typically high in all three. Finally, the outermost rind of the pallium (termed the pallium externum by us), which surrounds the belt regions and projects to the striatum of the basal ganglia, was intermediate in all three GABAergic receptors types. Although both GABA_A and benzodiazepine receptors were abundant within the basal ganglia, GABA_A binding sites were densest in the striatum and BDZ binding sites were densest in the pallidum. Among the brainstem regions receiving GABAergic basal ganglia input, the anterior and posterior nuclei of the ansa lenticularis showed very low level of all three receptors, while the lateral spiriform nucleus and the ventral tegmental area/substantia nigra complex contained moderate abundance of the three binding sites. The dorsalmost part of the dorsal thalams (containing nonspecific nuclei) was rich all three binding sites, while the more ventral part of the dorsal thalamus (containig specific sensory nuclei), the ventral thalamus and the hypothalamus were poor in all three binding sites. The pretectum was also generally poor in all three, althrough some nuclei displayed higher level of one or more binding sites. The optic tectum, inferior colliculus, and central gray were rich in all three sites, while among the isthmic nuclei, the parvicellular isthmic was nucleus was conspicuously rich in BDZ sites. The REsults show a strong correlation of the regional abundance of GABA binding sites with previously described distributions of GABAergic fibers and terminals in the avaian forebrain and midbrain. The distribution of these binding sites is also remarkably similar to that in mammals, indicating a conservative evolution of forebrain and midbrain GABA systems systems among amniotes.