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Fentanyl-Type Antagonist of the μ-Opioid Receptor: Important Role of Axial Chirality in the Active Conformation.

Hironobu AritaRyoko TanakaShuntaro KikukawaTsukasa TomizawaHaruka SakataMasahiko FunadaKenichi TomiyamaMasaru HashimotoTomohiko TasakaHidetsugu TabataKayo NakamuraKosho MakinoTetsuta OshitariHideaki NatsugariHideyo Takahashi
Published in: Journal of medicinal chemistry (2024)
In recent years, synthetic opioids have emerged as a predominant cause of drug-overdose-related fatalities, causing the "opioid crisis." To design safer therapeutic agents, we accidentally discovered μ-opioid receptor (MOR) antagonists based on fentanyl with a relatively uncomplicated chemical composition that potentiates structural modifications. Here, we showed the development of novel atropisomeric fentanyl analogues that exhibit more potent antagonistic activity against MOR than naloxone, a morphinan MOR antagonist. Derivatives displaying stable axial chirality were synthesized based on the amide structure of fentanyl. The a S - and a R -enantiomers exerted antagonistic and agonistic effects on the MOR, respectively, and each atropisomer interacted with the MOR by assuming a distinct binding mode through molecular docking. These findings suggest that introducing atropisomerism into fentanyl may serve as a key feature in the molecular design of future MOR antagonists to help mitigate the opioid crisis.
Keyphrases
  • chronic pain
  • pain management
  • molecular docking
  • molecular dynamics simulations
  • public health
  • machine learning
  • current status
  • dna binding