Abstract
Drugs targeting the G protein-coupled μ-opioid receptor (μOR) are the most effective analgesics available but are also associated with fatal respiratory depression. While some partial opioid agonists appear to be safer than full agonists, the signaling pathways responsible for respiratory depression have yet to be elucidated. Here we investigated the structural and mechanistic basis of action of lofentanil (LFT) and mitragynine pseudoindoxyl (MP), two μOR agonists with different safety profiles. LFT, one of the most potent and lethal opioids, and MP, a derivative from the kratom plant with reduced respiratory depression in animal studies at equianalgesic doses, exhibited markedly different signaling efficacy profiles for G protein subtype activation and recruitment of β-arrestins. Cryo-EM structures of the μOR-Gi1 complex with MP (2.5Å) and LFT (3.2Å) revealed that the two ligands engage distinct sub-pockets, and molecular dynamics (MD) simulations showed additional differences in the binding site that propagate to the intracellular side of the receptor where G proteins and β-arrestins bind. While MP favors the precise G protein-bound active state observed in the cryo-EM structures, LFT favors a distinct active state. These results highlight how drugs engaging different parts of the μOR orthosteric pocket can lead to distinct signaling outcomes.
Competing Interest Statement
B.K.K is a co-founder of and consultant for ConformetRx. S.M. is a co-founder of Sparian biosciences. S.M. has filed a provisional patent on MP and related molecules.