Electrophilic Fragment-Based Design of Reversible Covalent Kinase Inhibitors

Rand M. Miller‡, Ville O. Paavilainen†, Shyam Krishnan†, Iana M. Serafimova‡, and Jack Taunton*†

^†Department of Cellular and Molecular Pharmacology, Howard Hughes Medical Institute, and ^‡Chemistry and Chemical Biology Graduate Program, University of California, San Francisco, California 94158, United States

J. Am. Chem. Soc., 2013, 135 (14), pp 5298–5301

DOI: 10.1021/ja401221b

Publication Date (Web): March 29, 2013

Copyright © 2013 American Chemical Society

jack.taunton@ucsf.edu

Abstract

Abstract Image

Fragment-based ligand design and covalent targeting of noncatalytic cysteines have been employed to develop potent and selective kinase inhibitors. Here, we combine these approaches, starting with a panel of low-molecular-weight, heteroaryl-susbstituted cyanoacrylamides, which we have previously shown to form reversible covalent bonds with cysteine thiols. Using this strategy, we identify electrophilic fragments with sufficient ligand efficiency and selectivity to serve as starting points for the first reported inhibitors of the MSK1 C-terminal kinase domain. Guided by X-ray co-crystal structures, indazole fragment 1 was elaborated to afford 12 (RMM-46), a reversible covalent inhibitor that exhibits high ligand efficiency and selectivity for MSK/RSK-family kinases. At nanomolar concentrations, 12 blocked activation of cellular MSK and RSK, as well as downstream phosphorylation of the critical transcription factor, CREB.

Supporting Information

Detailed experimental procedures, synthesis and spectral characterization of compounds, crystallographic statistics, and collection parameters. This material is available free of charge via the Internet at http://pubs.acs.org.

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Electrophilic Fragment-Based Design of Reversible Covalent Kinase Inhibitors

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