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Discovery of Triazolopyrimidine Derivatives as Selective P2X3 Receptor Antagonists Binding to an Unprecedented Allosteric Site as Evidenced by Cryo-Electron Microscopy

Garam Kim, Subin Kim, Yeo Ok Kim, Yeo Ok Kim, Xuehao Han, Jessica Nagel, Jihyun Kim, Dahin Irene Song, Christa E. Müller, Myung Ha Yoon, Mi Sun Jin, Yong‐Chul Kim, Yong‐Chul Kim

2024Journal of Medicinal Chemistry17 citationsDOIOpen Access PDF

Abstract

The P2X3 receptor (P2X3R), an ATP-gated cation channel predominantly expressed in C- and Aδ-primary afferent neurons, has been proposed as a drug target for neurological inflammatory diseases, e.g., neuropathic pain, and chronic cough. Aiming to develop novel, selective P2X3R antagonists, tetrazolopyrimidine-based hit compound 9 was optimized through structure–activity relationship studies by modifying the tetrazole core as well as side chain substituents. The optimized antagonist 26a, featuring a cyclopropane-substituted triazolopyrimidine core, displayed potent P2X3R-antagonistic activity (IC 50 = 54.9 nM), 20-fold selectivity versus the heteromeric P2X2/3R, and high selectivity versus other P2XR subtypes. Noncompetitive P2X3R blockade was experimentally confirmed by calcium influx assays. Cryo-electron microscopy revealed that 26a stabilizes the P2X3R in its desensitized state, acting as a molecular barrier to prevent ions from accessing the central pore. In vivo studies in a rat neuropathic pain model (spinal nerve ligation) showed dose-dependent antiallodynic effects of 26a, thus presenting a novel, promising lead structure.

Topics & Concepts

ChemistryAllosteric regulationNeuropathic painReceptorAllosteric modulatorDrug discoveryPharmacologyBinding siteDrugBiophysicsBiochemistryMedicineBiologyAdenosine and Purinergic SignalingPharmacological Receptor Mechanisms and EffectsRespiratory and Cough-Related Research
Discovery of Triazolopyrimidine Derivatives as Selective P2X3 Receptor Antagonists Binding to an Unprecedented Allosteric Site as Evidenced by Cryo-Electron Microscopy | Litcius