Sodium-Sensitive Cocaine Binding to Rat Striatal Membrane: Possible Relationship to Dopamine Uptake Sites

Abstract: In rat striatal membranes, NaCl induced a twofold increase in the maximal number of cocaine binding sites but did not alter the affinity of these sites for cocaine. This effect was concentration-dependent, specific to sodium ions, and occurred in membranes prepared from corpus striatum but not from other brain regions. Lesions with 6-hydroxydopamine but not with kainic acid eliminated the sodium-induced increase in binding and produced a decrease in the B_max of binding measured in the presence of NaCl. The capacity of a series of drugs to interfere with Na⁺–dependent cocaine binding correlated well with their capacity to inhibit [³H]dopamine uptake into rat striatal synaptosomes. The present results suggest that Na⁺–dependent cocaine binding sites are localized presynaptically on dopaminergic nerve terminals in corpus striatum, and may be related to dopamine uptake sites.