Issue 2, 2022

Design, synthesis, and biological evaluation of C6-difluoromethylenated epoxymorphinan Mu opioid receptor antagonists

Abstract

The recent widespread abuse of high potency synthetic opioids, such as fentanyl, presents a serious threat to individuals affected by substance use disorder. Synthetic opioids generally exhibit prolonged in vivo circulatory half-lives that can outlast the reversal effects of conventional naloxone-based overdose antidotes leading to a life-threatening relapse of opioid toxicity known as renarcotization. In this manuscript, we present our efforts to combat the threat of renarcotization by attempting to extend the half-life of traditional MOR antagonists through the design of novel, fluorinated 4,5-epoxymorphinans possessing increased lipophilicity. Analogues were prepared via a concise synthetic strategy highlighted by decarboxylative Wittig olefination of the C6 ketone to install a bioisosteric 1,1-difluoromethylene unit. C6-difluoromethylenated compounds successfully maintained in vitro potency against an EC90 challenge of fentanyl and were predicted to have enhanced circulatory half-life compared to the current standard of care, naloxone. Subsequent in vivo studies demonstrated the effective blockade of fentanyl-induced anti-nociception in mice.

Graphical abstract: Design, synthesis, and biological evaluation of C6-difluoromethylenated epoxymorphinan Mu opioid receptor antagonists

Supplementary files

Article information

Article type
Research Article
Submitted
24 Aug 2021
Accepted
28 Oct 2021
First published
02 Nov 2021

RSC Med. Chem., 2022,13, 175-182

Design, synthesis, and biological evaluation of C6-difluoromethylenated epoxymorphinan Mu opioid receptor antagonists

A. J. Kassick, A. Treat, N. Tomycz, M. G. Feasel, B. J. Kolber and S. Averick, RSC Med. Chem., 2022, 13, 175 DOI: 10.1039/D1MD00285F

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