Litcius/Paper detail

A polycyclic scaffold identified by structure-based drug design effectively inhibits the human P2X7 receptor

Adam Oken, Andreea L. Turcu, Eva Tzortzini, Kyriakos Georgiou, Jessica Nagel, Franka G. Westermann, Marta Barniol‐Xicota, Jonas Seidler, Garam Kim, So‐Deok Lee, Annette Nicke, Yong‐Chul Kim, Christa E. Müller, Antonios Kolocouris, Santiago Vázquez, Steven Mansoor

2025Nature Communications10 citationsDOIOpen Access PDF

Abstract

The P2X7 receptor is an ATP-gated ion channel that activates inflammatory pathways involved in diseases such as cancer, atherosclerosis, and neurodegeneration. However, despite the potential benefits of blocking overactive signaling, no P2X7 receptor antagonists have been approved for clinical use. Understanding species-specific pharmacological effects of existing antagonists has been challenging, in part due to the dearth of molecular information on receptor orthologs. Here, to identify distinct molecular features in the human receptor, we determine high-resolution cryo-EM structures of the full-length wild-type human P2X7 receptor in apo closed and ATP-bound open state conformations and draw comparisons with structures of other orthologs. We also report a cryo-EM structure of the human receptor in complex with an adamantane-based inhibitor, which we leverage, in conjunction with functional data and molecular dynamics simulations, to design a potent and selective antagonist with a unique polycyclic scaffold. Functional and structural analysis reveal how this optimized ligand, termed UB-MBX-46, interacts with the classical allosteric pocket of the human P2X7 receptor with subnanomolar potency and high selectivity, revealing its significant therapeutic potential.

Topics & Concepts

Allosteric regulationReceptorChemistryPharmacologyMolecular PharmacologyScaffoldDrug discoveryAntagonistAgonistHEK 293 cellsDrugG protein-coupled receptorCricetulusStructure–activity relationshipComputational biologyEnzyme-linked receptorIon channelFunctional selectivityAllosteric modulatorReceptor antagonistMolecular modelIn vitroSignal transductionPlasma protein bindingDrug developmentAdenosine and Purinergic SignalingOrganic Light-Emitting Diodes ResearchPharmacological Receptor Mechanisms and Effects