Differential Sensitivity of A(2A) and Especially D(2) Receptor Trafficking to Cocaine Compared with Lipid Rafts in Cotransfected CHO Cell Lines. Novel Actions of Cocaine Independent of the DA Transporter

The effects of low and high concentrations of cocaine have been studied in vitro on the trafficking of plasma membrane A(2A) and D(2) immunoreactivities in previously characterized A(2A)-D(2) CHO cell lines. Receptor double immunofluorescence staining was performed with D(2) and A(2A) antibodies, planar lipid rafts immunolabeling with biotinylated cholera toxin subunit B and membrane invaginations with an anti-caveolin-1 antibody. A computer-assisted image analysis demonstrated a substantial and highly significant rise of membrane-associated D(2) immunoreactivity (IR) after 8 h of exposure to a low concentration of cocaine (150 nM). At this low concentration of cocaine, there was also an increase of membrane associated A(2A) immunoreactivity but smaller and less significant. However, this increase became considerably larger and highly significant at 150 microM at which concentration the rise of D(2) immunoreactivity had begun to disappear. It may be suggested that an allosteric action of cocaine at 150 nM on the D(2) receptors may primarily increase the insertion of D(2) monomers, homomers and also of a subpopulation of A(2A)-D(2) heteromers from the cytoplasm into the plasma membrane due to the conformational change induced by cocaine in the D(2) receptor. The planar lipid rafts and the caveolae are only affected by the higher concentrations of cocaine. It is proposed that changes in D(2) and A(2A)-D(2) trafficking induced by allosteric actions of cocaine at D(2) receptors may contribute to the alterations of D(2) signaling found in cocaine abusers.