The role of calmodulin in opioid-induced changes in the phosphorylation of rat striatal synaptic membrane proteins

Abstract

Chronic morphine treatment of rats decreased the level of phosphorylation of synaptic membrane proteins of the striatum assayed in vitro. Although the patterns of phosphorylated proteins separated on SDS-gel electrophoresis from morphine-tolerant rats resembled patterns produced by lowering Ca²⁺ levels in the assay, supplementation of the protein kinase assay with Ca²⁺ and its binding protein, calmodulin, did not restore full kinase activity. The addition of methadone or etorphine to the protein kinase in vitro however, was able to block the Ca²⁺-calmodulin stimulation of phosphorylation in both synaptic membranes and intact synaptosomes. These data suggest that opioids produce an irreversible (or slowly reversible) defect in the Ca²⁺-dependent protein kinase system of striatal membranes.