Collybolide is a novel biased agonist of ?-opioid receptors with potent antipruritic activity

Among the opioid receptors, the κ-opioid receptor (κOR) has been gaining considerable attention as a potential therapeutic target for the treatment of complex CNS disorders including depression, visceral pain, and cocaine addiction. With an interest in discovering novel ligands targeting κOR, we sea...

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Bibliographic Details
Published inProceedings of the National Academy of Sciences - PNAS Vol. 113; no. 21; p. 6041
Main Authors Gupta, Achla, Gomes, Ivone, Bobeck, Erin N, Fakira, Amanda K, Massaro, Nicholas P, Sharma, Indrajeet, Cavé, Adrien, Hamm, Heidi E, Parello, Joseph, Devi, Lakshmi A
Format Journal Article
LanguageEnglish
Published Washington National Academy of Sciences 24.05.2016
Subjects
Kinases
Ligands
Mushrooms
Organic chemicals
Plant biology
Protein folding
Signal transduction
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Summary:Among the opioid receptors, the κ-opioid receptor (κOR) has been gaining considerable attention as a potential therapeutic target for the treatment of complex CNS disorders including depression, visceral pain, and cocaine addiction. With an interest in discovering novel ligands targeting κOR, we searched natural products for unusual scaffolds and identified collybolide (Colly), a nonnitrogenous sesquiterpene from the mushroom Collybia maculata. This compound has a furyl-δ-lactone core similar to that of Salvinorin A (Sal A), another natural product from the plant Salvia divinorum. Characterization of the molecular pharmacological properties reveals that Colly, like Sal A, is a highly potent and selective κOR agonist. However, the two compounds differ in certain signaling and behavioral properties. Colly exhibits 10- to 50-fold higher potency in activating the mitogen-activated protein kinase pathway compared with Sal A. Taken with the fact that the two compounds are equipotent for inhibiting adenylyl cyclase activity, these results suggest that Colly behaves as a biased agonist of κOR. Behavioral studies also support the biased agonistic activity of Colly in that it exhibits ~10-fold higher potency in blocking non-histamine-mediated itch compared with Sal A, and this difference is not seen in pain attenuation by these two compounds. These results represent a rare example of functional selectivity by two natural products that act on the same receptor. The biased agonistic activity, along with an easily modifiable structure compared with Sal A, makes Colly an ideal candidate for the development of novel therapeutics targeting κOR with reduced side effects.
ISSN:0027-8424
1091-6490