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Identification of a μ-δ Opioid Receptor Heteromer-Biased Agonist With Antinociceptive Activity

Ivone Gomes, Wakako Fujita, Achla Gupta, S Adrian Saldanha, Ana Negri, Christine E Pinello, Christina Eberhart, Edward Roberts, Marta Filizola, Peter Hodder, Lakshmi A Devi

Proc Natl Acad Sci U S A. 2013 Jul 16;110(29):12072-7.

PMID: 23818586

Abstract:

G protein-coupled receptors play a pivotal role in many physiological signaling pathways. Mounting evidence suggests that G protein-coupled receptors, including opioid receptors, form dimers, and dimerization is necessary for receptor maturation, signaling, and trafficking. However, the physiological role of dimerization in vivo has not been well-explored because of the lack of tools to study these dimers in endogenous systems. To address this problem, we previously generated antibodies to μ-δ opioid receptor (μOR-δOR) dimers and used them to study the pharmacology and signaling by this heteromer. We also showed that the heteromer exhibits restricted distribution in the brain and that its abundance is increased in response to chronic morphine administration. Thus, the μOR-δOR heteromer represents a potentially unique target for the development of therapeutics to treat pain. Here, we report the identification of compounds targeting μOR-δOR heteromers through high-throughput screening of a small-molecule library. These compounds exhibit activity in μOR-δOR cells but not μOR or δOR cells alone. Among them, CYM51010 was found to be a μOR-δOR-biased ligand, because its activity is blocked by the μOR-δOR heteromer antibody. Notably, systemic administration of CYM51010 induced antinociceptive activity similar to morphine, and chronic administration of CYM51010 resulted in lesser antinociceptive tolerance compared with morphine. Taken together, these results suggest that CYM51010, a μOR-δOR-biased ligand, could serve as a scaffold for the development of a unique type (heteromer-biased) of drug that is more potent and without the severe side effects associated with conventional clinical opioids.

Chemicals Related in the Paper:

Catalog Number Product Name Structure CAS Number Price
AP1069498969 CYM51010 CYM51010 1069498-96-9 Price
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