{"title":"Morphinan Evolution: The Impact of Advances in Biochemistry and Molecular Biology.","authors":"Keita Kajino, Akihisa Tokuda, Tsuyoshi Saitoh","doi":"10.1093/jb/mvae021","DOIUrl":null,"url":null,"abstract":"<p><p>Morphinan-based opioids, derived from natural alkaloids like morphine, codeine and thebaine, have long been pivotal in managing severe pain. However, their clinical utility is marred by significant side effects and high addiction potential. This review traces the evolution of the morphinan scaffold in light of advancements in biochemistry and molecular biology, which have expanded our understanding of opioid receptor pharmacology. We explore the development of semi-synthetic and synthetic morphinans, their receptor selectivity and the emergence of biased agonism as a strategy to dissociate analgesic properties from undesirable effects. By examining the molecular intricacies of opioid receptors and their signaling pathways, we highlight how receptor-type selectivity and signaling bias have informed the design of novel analgesics. This synthesis of historical and contemporary perspectives provides an overview of the morphinan landscape, underscoring the ongoing efforts to mitigate the problems facing opioids through smarter drug design. We also highlight that most morphinan derivatives show a preference for the G protein pathway, although detailed experimental comparisons are still necessary. This fact underscores the utility of the morphinan skeleton in future opioid drug discovery.</p>","PeriodicalId":15234,"journal":{"name":"Journal of biochemistry","volume":" ","pages":"337-355"},"PeriodicalIF":2.1000,"publicationDate":"2024-03-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of biochemistry","FirstCategoryId":"99","ListUrlMain":"https://doi.org/10.1093/jb/mvae021","RegionNum":4,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"BIOCHEMISTRY & MOLECULAR BIOLOGY","Score":null,"Total":0}
引用次数: 0
Abstract
Morphinan-based opioids, derived from natural alkaloids like morphine, codeine and thebaine, have long been pivotal in managing severe pain. However, their clinical utility is marred by significant side effects and high addiction potential. This review traces the evolution of the morphinan scaffold in light of advancements in biochemistry and molecular biology, which have expanded our understanding of opioid receptor pharmacology. We explore the development of semi-synthetic and synthetic morphinans, their receptor selectivity and the emergence of biased agonism as a strategy to dissociate analgesic properties from undesirable effects. By examining the molecular intricacies of opioid receptors and their signaling pathways, we highlight how receptor-type selectivity and signaling bias have informed the design of novel analgesics. This synthesis of historical and contemporary perspectives provides an overview of the morphinan landscape, underscoring the ongoing efforts to mitigate the problems facing opioids through smarter drug design. We also highlight that most morphinan derivatives show a preference for the G protein pathway, although detailed experimental comparisons are still necessary. This fact underscores the utility of the morphinan skeleton in future opioid drug discovery.
以吗啡南为基础的阿片类药物源自吗啡、可待因和蒂巴因等天然生物碱,长期以来在控制剧烈疼痛方面发挥着举足轻重的作用。然而,它们的临床应用却因副作用大和成瘾可能性高而受到损害。随着生物化学和分子生物学的发展,我们对阿片受体药理学的认识不断加深,本综述将追溯吗啡南支架的演变过程。我们探讨了半合成和合成吗啡烷的发展、它们的受体选择性,以及作为一种将镇痛特性与不良反应分离的策略而出现的偏激激动作用。通过研究阿片类受体及其信号传导途径的分子复杂性,我们强调了受体类型选择性和信号传导偏倚如何为新型镇痛药的设计提供依据。这种对历史和当代观点的综述概述了吗啡类药物的现状,强调了通过更智能的药物设计来缓解阿片类药物所面临的问题的持续努力。我们还强调,大多数吗啡南衍生物都显示出对 G 蛋白通路的偏好,尽管详细的实验比较仍有必要。这一事实强调了吗啡南骨架在未来阿片类药物发现中的作用。
期刊介绍:
The Journal of Biochemistry founded in 1922 publishes the results of original research in the fields of Biochemistry, Molecular Biology, Cell, and Biotechnology written in English in the form of Regular Papers or Rapid Communications. A Rapid Communication is not a preliminary note, but it is, though brief, a complete and final publication. The materials described in Rapid Communications should not be included in a later paper. The Journal also publishes short reviews (JB Review) and papers solicited by the Editorial Board.