| Literature DB >> 34081840 |
Martin Reynders1, Apirat Chaikuad2, Benedict-Tilman Berger2, Katharina Bauer3, Pierre Koch3, Stefan Laufer3, Stefan Knapp2, Dirk Trauner4.
Abstract
Covalent kinase inhibitors account for some of the most successful drugs that have recently entered the clinic and many others are in preclinical development. A common strategy is to target cysteines in the vicinity of the ATP binding site using an acrylamide electrophile. To increase the tissue selectivity of kinase inhibitors, it could be advantageous to control the reactivity of these electrophiles with light. Here, we introduce covalent inhibitors of the kinase JNK3 that function as photoswitchable affinity labels (PALs). Our lead compounds contain a diazocine photoswitch, are poor non-covalent inhibitors in the dark, and becomes effective covalent inhibitors after irradiation with visible light. Our proposed mode of action is supported by X-ray structures that explain why these compounds are unreactive in the dark and undergo proximity-based covalent attachment following exposure to light.Entities:
Keywords: JNK3; covalent inhibitor; photopharmacology; photoswitch; photoswitchable affinity label
Year: 2021 PMID: 34081840 DOI: 10.1002/anie.202103767
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336