Literature DB >> 27533032

Structure-based discovery of opioid analgesics with reduced side effects.

Aashish Manglik1, Henry Lin2, Dipendra K Aryal3, John D McCorvy3, Daniela Dengler4, Gregory Corder5, Anat Levit2, Ralf C Kling4,6, Viachaslau Bernat4, Harald Hübner4, Xi-Ping Huang3, Maria F Sassano3, Patrick M Giguère3, Stefan Löber4, Grégory Scherrer1,5, Brian K Kobilka1, Peter Gmeiner4, Bryan L Roth3, Brian K Shoichet2.   

Abstract

Morphine is an alkaloid from the opium poppy used to treat pain. The potentially lethal side effects of morphine and related opioids-which include fatal respiratory depression-are thought to be mediated by μ-opioid-receptor (μOR) signalling through the β-arrestin pathway or by actions at other receptors. Conversely, G-protein μOR signalling is thought to confer analgesia. Here we computationally dock over 3 million molecules against the μOR structure and identify new scaffolds unrelated to known opioids. Structure-based optimization yields PZM21-a potent Gi activator with exceptional selectivity for μOR and minimal β-arrestin-2 recruitment. Unlike morphine, PZM21 is more efficacious for the affective component of analgesia versus the reflexive component and is devoid of both respiratory depression and morphine-like reinforcing activity in mice at equi-analgesic doses. PZM21 thus serves as both a probe to disentangle μOR signalling and a therapeutic lead that is devoid of many of the side effects of current opioids.

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Year:  2016        PMID: 27533032      PMCID: PMC5161585          DOI: 10.1038/nature19112

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  66 in total

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