RT Journal Article
SR Electronic
T1 Adenylyl Cyclase Superactivation Induced by Long-Term Treatment with Opioid Agonist Is Dependent on Receptor Localized within Lipid Rafts and Is Independent of Receptor Internalization
JF Molecular Pharmacology
JO Mol Pharmacol
FD American Society for Pharmacology and Experimental Therapeutics
SP 1421
OP 1432
DO 10.1124/mol.105.020024
VO 69
IS 4
A1 Hui Zhao
A1 Horace H. Loh
A1 P. Y. Law
YR 2006
UL http://molpharm.aspetjournals.org/content/69/4/1421.abstract
AB Long-term opioid agonist treatment results in adenylyl cyclase superactivation. A recent “RAVE” theory implicates a direct correlation between the ability of agonist to induce receptor internalization and the magnitude of adenylyl cyclase superactivation. We decided to test such a theory by examining the adenylyl cyclase superactivation after long-term activation of μ-opioid receptor (MOR) in an EcR293 cell model. We examined the magnitudes of adenylyl cyclase superactivation in the presence of naloxone after long-term treatment with morphine, etorphine, and methadone, three agonists reported to have differential activities in promoting MOR internalization. It can be shown that the magnitudes of adenylyl cyclase superactivation after treating with these three agonists, although different, were dependent on MOR density. Blunting MOR internalization with the dominant-negative mutant of dynamin, K44E, did not alter the magnitude of either morphine- or etorphine-induced adenylyl cyclase superactivation. In the presence of diprenorphine, the magnitude of adenylyl cyclase superactivation after etorphine treatment was identical to that observed with morphine. It could be demonstrated further that adenylyl cyclase superactivation is dependent on the cell surface-located MOR. Sucrose gradient fractionation demonstrated the colocalization of MOR and adenylyl cyclase V/VI with caveolin-1, a marker for lipid rafts. After long-term agonist treatment, the majority of MOR remained at the lipid rafts. Methyl-β-cyclodextrin (MβCD) completely blunted the adenylyl cyclase superactivation and agonist-induced receptor internalization. These MβCD actions were reversed by incubating the cells with cholesterol. Thus, the adenylyl cyclase superactivation is not dependent on agonist-induced receptor internalization. Rather, the location of MOR at lipid rafts is an absolute requirement for the observed adenylyl cyclase superactivation.