A Comparative Study of α2- and β-Adrenoceptor Distribution in Pigeon and Chick Brain

The pharmacological properties and anatomical distribution of α₂, β₁ and β₂-adrenoceptors in pigeon and chick brains were studied by both homogenate binding and tissue section autoradiography. ³H]Bromoxidine (α₂-adrenoceptor-), ³H]CGP 12177 (β-adrenoceptor) and ¹²⁵1]cyanopindolol (β-adrenoceptor) were used as radioligands. In both species, ³H]bromoxidine binding to avian brain tissue showed a pharmacological profile similar to that previously reported for α₂-adrenoceptors in mammals. Regarding the anatomical distribution, the areas with the highest densities of α₂-adrenoceptors in the pigeon brain included the hyperstriatum, nuclei septalis, tectum opticum and some brainstem nuclei. Most β-adrenoceptors found in tissue membranes and sections from chick and pigeon brain were of the β₂ subtype, in contrast to what has been reported in the mammalian brain, where the β₁ subtype is predominant. A striking difference was found between the two species regarding the densities of these receptors: while pigeon brain was extremely rich in ¹²⁵1]cyanopindolol binding throughout the brain (mainly cerebellum) in the pigeon, the levels of labelling in the chick brain were much lower; the exception was the cerebellum, which displayed a higher density than other parts of the brain in both species. Overall, our results support the proposed anatomical equivalences between a number of structures in the avian and mammalian encephalon.