Enhanced Stimulatory Adenylyl Cyclase Signaling during Opioid Dependence Is Associated with a Reduction in Palmitoylated Gsα

Abstract

Chronic opioid treatment of stably μ-opioid receptor transfected human mammary epidermoid A431 carcinoma cells (clone A431/μ13) results in sensitization of adenylyl cyclase (AC), a cellular adaptation associated with drug dependence. Up-regulation of AC is characterized by significantly increased levels of both basal and post-receptor-stimulated effector activities, which develop without any apparent change in the quantity of stimulatory G proteins and the maximum catalytic activity of AC. Here, we report that detergent extracts from membranes of chronically morphine-treated (10 μm; 2 days) A431/μ13 cells display higher stimulatory AC activities as assessed in the S49cyc⁻reconstitution assay. This finding is most likely due to an increased functional activity of G_sα because the addition of exogenous G_βγ subunits, which per sestimulate AC in S49cyc⁻ membranes, failed to affect the difference in reconstitutive AC activity. Moreover, both chemical depalmitoylation by hydroxylamine and inhibition of palmitoyl-CoA transferase in vivo by tunicamycin treatment increased the reconstitutive activity of detergent extracts and eliminated the differences between native and opioid-dependent cells, indicating that the increase in stimulatory activity is due to depalmitoylation of G_sα. Indeed, metabolic labeling studies with [³H]palmitic acid revealed that chronic opioid treatment reduces considerably the fraction of palmitoylated G_sα in the plasma membrane. Furthermore, high affinity [³H]forskolin binding experiments demonstrated that depalmitoylated G_sα is able to associate directly with AC during the state of opioid dependence even without preceding receptor activation. These results suggest that post-translational palmitoylation of G_sα provides a potential regulator of transmembrane signaling. Moreover, accumulation of the depalmitoylated form of G_sα in the plasma membrane as reported herein may contribute to the increase in stimulatory AC signaling, as is characteristic for the state of opioid dependence.