Ranit Lahmy, Harald Hübner, Daniel Lachmann, Peter Gmeiner, Burkhard König
ChemMedChem 2023 Dec 01Converting known ligands into photoswitchable derivatives offers the opportunity to modulate compound structure with light and hence, biological activity. In doing so, these probes provide unique control when evaluating G-protein-coupled receptor (GPCR) mechanism and function. Further conversion of such compounds into covalent probes, known as photoswitchable tethered ligands (PTLs), offers additional advantages. These include localization of the PTLs to the receptor binding pocket. Covalent localization increases local ligand concentration, improves site selectivity and may improve the biological differences between the respective isomers. This work describes chemical, photophysical and biochemical characterizations of a variety of PTLs designed to target the μ-opioid receptor (μOR). These PTLs were modeled on fentanyl, with the lead disulfide-containing agonist found to covalently interact with a cysteine-enriched mutant of this medically-relevant receptor. © 2023 The Authors. ChemMedChem published by Wiley-VCH GmbH.
Ranit Lahmy, Harald Hübner, Daniel Lachmann, Peter Gmeiner, Burkhard König. Development of Photoswitchable Tethered Ligands that Target the μ-Opioid Receptor. ChemMedChem. 2023 Dec 01;18(23):e202300228
PMID: 37817331
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