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How μ-opioid receptor recognizes fentanyl

Quynh N. Vo, Paween Mahinthichaichan, Jana Shen, Christopher R. Ellis

2021Nature Communications120 citationsDOIOpen Access PDF

Abstract

Abstract Roughly half of the drug overdose-related deaths in the United States are related to synthetic opioids represented by fentanyl which is a potent agonist of mu-opioid receptor (mOR). In recent years, X-ray crystal structures of mOR in complex with morphine derivatives have been determined; however, structural basis of mOR activation by fentanyl-like opioids remains lacking. Exploiting the X-ray structure of BU72-bound mOR and several molecular simulation techniques, we elucidated the detailed binding mechanism of fentanyl. Surprisingly, in addition to the salt-bridge binding mode common to morphinan opiates, fentanyl can move deeper and form a stable hydrogen bond with the conserved His297 6.52 , which has been suggested to modulate mOR’s ligand affinity and pH dependence by previous mutagenesis experiments. Intriguingly, this secondary binding mode is only accessible when His297 6.52 adopts a neutral HID tautomer. Alternative binding modes may represent a general mechanism in G protein-coupled receptor-ligand recognition.

Topics & Concepts

FentanylStereochemistryOpioid receptorChemistryLigand (biochemistry)OpioidAgonistReceptorMutagenesisBinding siteμ-opioid receptorMorphineMechanism (biology)PharmacologyBiologyBiochemistryGenePhysicsMutationQuantum mechanicsReceptor Mechanisms and SignalingNeuropeptides and Animal PhysiologyMass Spectrometry Techniques and Applications