Chronic opioid antagonist treatment dose-dependently regulates mu-opioid receptors and trafficking proteins in vivo.

Chronic opioid antagonist treatment increases the density of mu-opioid receptors (muOR) in many model systems. In previous studies, naltrexone treatment produced an increase in muOR density accompanied by decreases in GRK-2 and DYN-2 protein abundance. To examine the relationship between changes in receptor density and proteins involved in receptor trafficking, the dose-dependent effect of chronic naloxone infusion was determined.

Chronic opioid antagonist treatment selectively regulates trafficking and signaling proteins in mouse spinal cord.

Chronic opioid antagonist treatment produces functional supersensitivity and mu-opioid receptor (muOR) upregulation. Studies suggest a role for G-protein receptor kinases (GRKs) and dynamin (DYN), but not signaling proteins (e.g.

Opioid agonists differentially regulate mu-opioid receptors and trafficking proteins in vivo.

Chronic opioid agonist treatment produces tolerance and in some cases opioid receptor internalization and down-regulation. Both morphine and etorphine induce tolerance; however, only etorphine produces mu-opioid receptor (muOR) down-regulation. In vitro studies implicate dynamin-2 (DYN-2) and G-protein receptor kinase-2 (GRK-2) in these processes.