Molecular Recognition of Morphine and Fentanyl by the Human μ-opioid Receptor

Overview

Journal Cell

Publisher Cell Press

Specialty Cell Biology

Date 2022 Nov 11

PMID 36368306

Authors

Youwen Zhuang

Yue Wang

Bingqing He

Xinheng He

X Edward Zhou

Shimeng Guo

Qidi Rao

JiaQi Yang

Jinyu Liu

Qingtong Zhou

Xiaoxi Wang

Mingliang Liu

Weiyi Liu

Xiangrui Jiang

Dehua Yang

Hualiang Jiang

Jingshan Shen

Karsten Melcher

Hong Chen

Yi Jiang

Xi Cheng

Ming-Wei Wang

Xin Xie

H Eric Xu

Affiliations

Soon will be listed here.

Abstract

Morphine and fentanyl are among the most used opioid drugs that confer analgesia and unwanted side effects through both G protein and arrestin signaling pathways of μ-opioid receptor (μOR). Here, we report structures of the human μOR-G protein complexes bound to morphine and fentanyl, which uncover key differences in how they bind the receptor. We also report structures of μOR bound to TRV130, PZM21, and SR17018, which reveal preferential interactions of these agonists with TM3 side of the ligand-binding pocket rather than TM6/7 side. In contrast, morphine and fentanyl form dual interactions with both TM3 and TM6/7 regions. Mutations at the TM6/7 interface abolish arrestin recruitment of μOR promoted by morphine and fentanyl. Ligands designed to reduce TM6/7 interactions display preferential G protein signaling. Our results provide crucial insights into fentanyl recognition and signaling of μOR, which may facilitate rational design of next-generation analgesics.

Citing Articles

Biased Opioid Receptor Agonists: Balancing Analgesic Efficacy and Side-Effect Profiles.

Ju J, Li Z, Liu J, Peng X, Gao F Int J Mol Sci. 2025; 26(5).

PMID: 40076488 PMC: 11899445. DOI: 10.3390/ijms26051862.

A Bibliometric and Visual Analysis of Oliceridine Research (2013-2024).

Song C, Huang X, Chen N, Song Q, Qiu Y Drug Des Devel Ther. 2025; 19:1305-1321.

PMID: 40026330 PMC: 11869766. DOI: 10.2147/DDDT.S497186.

Docking guidance with experimental ligand structural density improves docking pose prediction and virtual screening performance.

Hansel-Harris A, Tillack A, Santos-Martins D, Holcomb M, Forli S Protein Sci. 2025; 34(3):e70082.

PMID: 39998966 PMC: 11854350. DOI: 10.1002/pro.70082.

A Putative Binding Model of Nitazene Derivatives at the -Opioid Receptor.

Clayton J, Shi L, Robertson M, Skiniotis G, Michaelides M, Stavitskaya L bioRxiv. 2025; .

PMID: 39990498 PMC: 11844390. DOI: 10.1101/2024.10.03.616560.

- Simplifying the Complex: Building, Simulating, and Analyzing Protein-Ligand Systems in .

Talagayev V, Chen Y, Doering N, Obendorf L, Denzinger K, Puls K J Chem Inf Model. 2025; 65(4):1967-1978.

PMID: 39933881 PMC: 11863370. DOI: 10.1021/acs.jcim.4c02158.