Literature DB >> 30982749

Leveraging Compound Promiscuity to Identify Targetable Cysteines within the Kinome.

Suman Rao1, Deepak Gurbani2, Guangyan Du3, Robert A Everley4, Christopher M Browne5, Apirat Chaikuad6, Li Tan3, Martin Schröder6, Sudershan Gondi2, Scott B Ficarro5, Taebo Sim7, Nam Doo Kim8, Matthew J Berberich4, Stefan Knapp9, Jarrod A Marto5, Kenneth D Westover2, Peter K Sorger10, Nathanael S Gray11.   

Abstract

Covalent kinase inhibitors, which typically target cysteine residues, represent an important class of clinically relevant compounds. Approximately 215 kinases are known to have potentially targetable cysteines distributed across 18 spatially distinct locations proximal to the ATP-binding pocket. However, only 40 kinases have been covalently targeted, with certain cysteine sites being the primary focus. To address this disparity, we have developed a strategy that combines the use of a multi-targeted acrylamide-modified inhibitor, SM1-71, with a suite of complementary chemoproteomic and cellular approaches to identify additional targetable cysteines. Using this single multi-targeted compound, we successfully identified 23 kinases that are amenable to covalent inhibition including MKNK2, MAP2K1/2/3/4/6/7, GAK, AAK1, BMP2K, MAP3K7, MAPKAPK5, GSK3A/B, MAPK1/3, SRC, YES1, FGFR1, ZAK (MLTK), MAP3K1, LIMK1, and RSK2. The identification of nine of these kinases previously not targeted by a covalent inhibitor increases the number of targetable kinases and highlights opportunities for covalent kinase inhibitor development.
Copyright © 2019 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  chemical probe; chemoproteomics; covalent inhibitors; crystal structure; cysteines; drug discovery; kinase inhibitors; kinobeads; multi-targeted compounds; target engagement

Mesh:

Substances:

Year:  2019        PMID: 30982749      PMCID: PMC6634314          DOI: 10.1016/j.chembiol.2019.02.021

Source DB:  PubMed          Journal:  Cell Chem Biol        ISSN: 2451-9448            Impact factor:   8.116


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