[3H]WIN 35,065–2: A Ligand for Cocaine Receptors in Striatum

Abstract

[³H]WIN 35,065–2 binding to striatal membranes was characterized, primarily by centrifugation assay. Like [³H]cocaine, [³H]WIN 35,065–2 binds to both high- and low-affinity sites. [³H]WIN 35,065–2, however, exhibits consistently higher affinities than [³H]cocaine. Saturation experiments indicate a low-affinity binding site with an apparent K_D of ∼ 160 nM and a B_maxof 135 fmol/mg of tissue. A high-affinity site has also been identified with an apparent K_D of 5.6 nM and a B_max of 5.2 fmol/mg of tissue. The specific-to-nonspecific binding ratios with [³H]WIN 35,065–2 were higher than with [³H]cocaine in both centrifugation and filtration assays. Pharmacological characterization suggests that [³H]WIN 35,065–2 binds to the dopamine transporter. Mazindol, GBR 12909, nomifensine, and (-)-cocaine are potent inhibitors of [³H]WIN 35,065–2 binding. In contrast, the norepinephrine transporter ligand desipramine is a weak inhibitor, and the serotonin transporter ligand citalopram does not inhibit binding. The effect of sodium on binding was examined under conditions in which (a) the low-affinity site was primarily (87%) occupied and (b) ∼50% of both sites were occupied. The results indicate that both sites are sodium dependent. Injection of 6-hydroxydopamine into the striatum results in a significant loss of both high- and low-affinity sites, a finding suggesting that both sites are on dopaminergic nerve terminals. Taken together, these data are consistent with the presence of multiple cocaine binding sites associated with the dopamine transporter.