Functional Interactions of Mu and Delta Opioid Receptors
Levitt, Erica Sawyer   
University of Michigan Ann Arbor, Ann Arbor, MI, United States

Opioids such as morphine are highly prescribed for moderate to severe pain, however, their euphoric properties contribute to their widespread abuse. The ?-opioid receptor is primarily responsible for both the analgesic and euphoric effects, while agonists at the d -opioid receptor retain some analgesic properties, but have a lower abuse liability and have been suggested to attenuate some of the negative effects of ? agonists. For instance, eliminating the action of the d -receptor blocks the development of morphine tolerance and dependence in rodents. This interaction could be explained by heterodimerization of ? and d receptors, or by compartmentalization into membrane microdomains, such as lipid rafts, to form functional signaling complexes. In support of this, ? and d receptors colocalize in certain brain neurons and can heterodimerize in biochemical assays, while n and K receptors localize to lipid rafts with functional signaling consequences. The hypothesis of this proposal is that lipid rafts are required for ? and d -opioid receptor pharmacology including cross-talk.
Two specific aims have been designed to test this hypothesis. The goal of specific aim #1 is to investigate the role of lipid rafts on ? and d receptor signaling by addressing the following questions: a) Are ? and d receptors and their associated signaling proteins localized to lipid rafts? and b) Are lipid rafts required for efficient signaling of ? and d receptors and for cross-talk between these receptors? All experiments in aim 1 will be performed in HEK293 cells expressing epitope-tagged ? and/or d receptors. The goal of specific aim #2 is to determine the impact of cholesterol-lowering on ?/ d receptor interactions in vivo, by measuring ? and d agoinst-mediated antinociception, tolerance and dependence in mice treated with the clinically-used cholesterol-lowering agent simvastatin. The effect of cholesterol-lowering on opioid signaling will provide insight into the mechanism behind the cross-talk between ? and d receptors. This understanding could lead to the development of highly efficacious analgesics with a decreased abuse liability. Generally, the effect of cholesterol-lowering on opioid and GPCR signaling is important to study because of the increasing use of cholesterol-lowering agents and the continuously lowering clinical cholesterol goals. ? ? ?