Effects of Chronic Neuroleptic Treatment on Agonist Affinity States of the Dopamine-D2receptor in the Rat Brain

Abstract

The effects of repeated oral administration to rats of three antipsychotic compounds (haloperidol 1 μmol/kg, raclopride 5 μmol/kg and remoxipride 10 μmol/kg) on agonist affinity states of the dopamine-D₂ receptor were studied using ³H-spiperone binding to rat striatal homogenates in vitro. The competition between ³H-spiperone and dopamine was analyzed using the iterative nonlinear computer program LIGAND. The treatment of rats with haloperidol, raclopride and remoxipride caused an increased number of striatal dopamine-D₂ receptors. In parallel to this increase in Bmax (approximately 50%) there was an increased fraction of the number of receptors being in the D₂ (high) affinity state. The affinity of dopamine for the D₂ (high) state was not affected while a significant decrease in affinity of dopamine for the D₂ (low) state was found. The results are discussed in view of the mechanism of action of the three compounds and of neuroleptics in general.