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A Novel Mitragynine Analog with Low-Efficacy Mu Opioid Receptor Agonism Displays Antinociception with Attenuated Adverse Effects.

Journal of medicinal chemistry (2021-09-11)
Soumen Chakraborty, Jeffrey F DiBerto, Abdelfattah Faouzi, Sarah M Bernhard, Anna M Gutridge, Steven Ramsey, Yuchen Zhou, Davide Provasi, Nitin Nuthikattu, Rahul Jilakara, Melissa N F Nelson, Wesley B Asher, Shainnel O Eans, Lisa L Wilson, Satyanarayana M Chintala, Marta Filizola, Richard M van Rijn, Elyssa B Margolis, Bryan L Roth, Jay P McLaughlin, Tao Che, Dalibor Sames, Jonathan A Javitch, Susruta Majumdar
RÉSUMÉ

Mitragynine and 7-hydroxymitragynine (7OH) are the major alkaloids mediating the biological actions of the psychoactive plant kratom. To investigate the structure-activity relationships of mitragynine/7OH templates, we diversified the aromatic ring of the indole at the C9, C10, and C12 positions and investigated their G-protein and arrestin signaling mediated by mu opioid receptors (MOR). Three synthesized lead C9 analogs replacing the 9-OCH3 group with phenyl (4), methyl (5), or 3'-furanyl [6 (SC13)] substituents demonstrated partial agonism with a lower efficacy than DAMGO or morphine in heterologous G-protein assays and synaptic physiology. In assays limiting MOR reserve, the G-protein efficacy of all three was comparable to buprenorphine. 6 (SC13) showed MOR-dependent analgesia with potency similar to morphine without respiratory depression, hyperlocomotion, constipation, or place conditioning in mice. These results suggest the possibility of activating MOR minimally (G-protein Emax ≈ 10%) in cell lines while yet attaining maximal antinociception in vivo with reduced opioid liabilities.

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Sigma-Aldrich
Buprénorphine hydrochloride