The distribution of D1 and D2 receptors was studied in coronal sections of rat brain, using quantitative autoradiography. D1 receptors were labeled with 1.8 nM 3H-SKF-83566 (a brominated analog of 3H-SCH-23390), while D2 receptors were labeled with 1.0 nM 3H-spiroperidol (3H-SPD). The binding of both ligands to sections from brain and from a homogenate of caudate putamen (CPu mash) reached equilibrium within 80 min at 37 degrees C. CPu mash provided a virtually unlimited number of homogeneous sections that contained a high density of both D1 and D2 receptors. Sections of CPu mash were used in competition studies that confirmed that the specific binding of 3H-SKF-83566 was selective for D1 receptors, and that the binding of 3H-SPD was selective for D2 receptors. Scatchard analysis of equilibrium binding of the 2 ligands in the CPu in horizontal sections of rat brain revealed Kd values of 1.1 +/- 0.07 nM for 3H-SKF-83566 and 0.7 +/- 0.09 nM for 3H-SPD. Studies of the distribution of D1 and D2 receptors were carried out in coronal sections of brains from 5 rats. D1 receptors were found throughout the forebrain and were present in greater density than were D2 receptors in all regions examined except the olfactory nerve layer. In the CPu, nucleus accumbens, and olfactory tubercle, the densities of D1 and D2 receptors were, respectively, approximately 2,500 and 600-800 fmol/mg protein. In the substantia nigra, the density of D1 receptors was approximately 2,500 fmol/mg protein in both the compacta and the reticulata, but the density of D2 receptors was 230 fmol/mg protein in the compacta and 70 fmol/mg protein in the reticulata. The ventral tegmental area contained only 90 fmol/mg protein of D1 receptors, and D2 receptors were undetectable. The entopeduncular nucleus, zona incerta, and region of the ventral internal capsule had densities of D1 receptors of 550-950 fmol/mg protein and D2 receptor densities of less than 100 fmol/mg protein. Densities of D1 and D2 receptors were, respectively, 2,700 and 900 fmol/mg protein in the choroid plexus. Knowledge of the differences in the relative distributions of D1 and D2 receptors in various brain regions may increase our understanding of the functions of brain dopaminergic systems and may aid in the development of new therapeutic approaches for neuropsychiatric disorders.