Heterodimerization of {micro} and delta  Opioid Receptors: A Role in Opiate Synergy

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The Journal of Neuroscience, 0000, 20:RC110:1-5

RAPID COMMUNICATION
Heterodimerization of µ and $delta$ Opioid Receptors: A Role in Opiate Synergy
I. Gomes, B. A. Jordan, A. Gupta, N. Trapaidze, V. Nagy, and L. A. Devi
Departments of Pharmacology and Anesthesiology, New York University School of Medicine, New York, New York 10016
Opiate analgesics are widely used in the treatment of severe pain. Because of their importance in therapy, different strategieshave been considered for making opiates more effective while curbingtheir liability to be abused. Although most opiates exert theiranalgesic effects primarily via µ opioid receptors, a number ofstudies have shown that $delta$ receptor-selective drugs can enhancetheir potency. The molecular basis for these findings has notbeen elucidated previously. In the present study, we examinedwhether heterodimerization of µ and $delta$ receptors could accountfor the cross-modulation previously observed between these tworeceptors. We find that co-expression of µ and $delta$ receptors inheterologous cells followed by selective immunoprecipitation resultsin the isolation of µ- $delta$ heterodimers. Treatment of these cellswith extremely low doses of certain $delta$ -selective ligands resultsin a significant increase in the binding of a µ receptor agonist.Similarly, treatment with µ-selective ligands results in a significantincrease in the binding of a $delta$ receptor agonist. This robust increaseis also seen in SKNSH cells that endogenously express both µ and $delta$ receptors. Furthermore, we find that a $delta$ receptor antagonistenhances both the potency and efficacy of the µ receptor signaling;likewise a µ antagonist enhances the potency and efficacy of the $delta$ receptor signaling. A combination of agonists (µ and $delta$ receptorselective) also synergistically binds and potentiates signalingby activating the µ- $delta$ heterodimer. Taken together, these studiesshow that heterodimers exhibit distinct ligand binding and signalingcharacteristics. These findings have important clinical ramificationsand may provide new foundations for more effectivetherapies.

Key words: receptor subtypes; agonist; antagonist; enkephalin; Deltorphin II; DAMGO; DPDPE; TIPP $Psi$ ; G-protein-coupled receptor; oligomerization; MAP kinase
Copyright © 0000 Society for Neuroscience 0270-6474/00/$05.00/0

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RAPID COMMUNICATION Heterodimerization of µ and Opioid Receptors: A Role in Opiate Synergy

RAPID COMMUNICATION
Heterodimerization of µ and $delta$ Opioid Receptors: A Role in Opiate Synergy