化学
共价键
基因亚型
组合化学
生物化学
立体化学
药理学
有机化学
基因
医学
作者
Sebastian Mandel,Thomas Hanke,Niall Prendiville,María Baena-Nuevo,Lena M. Berger,Frederic Farges,Martin P. Schwalm,Benedict‐Tilman Berger,Andreas Krämer,Lewis Elson,Hayuningbudi Saraswati,K.R. Abdul Azeez,Verena Dederer,Sebastian Mathea,Ana Corrionero,Patricia Alfonso,Sabrina Keller,Matthias Gstaiger,Daniela S. Krause,Susanne Müller
标识
DOI:10.1021/acs.jmedchem.5c01204
摘要
Selectivity for closely related isoforms of protein kinases is a major challenge in the design of drugs and chemical probes. Covalent targeting of unique cysteines is a potential strategy to achieve selectivity for highly conserved binding sites. Here, we used a pan-LIMK inhibitor to selectively probe LIMK1 over LIMK2 by targeting the LIMK1-specific cysteine C349 located in the glycine-rich loop region. Binding kinetics of both noncovalent and covalent LIMK inhibitors were investigated, and the fast on-rate and small size of type-I inhibitors were used in the design of a covalent LIMK1 inhibitor. The developed cell-active, isoform-selective LIMK1 inhibitor showed excellent proteome-wide selectivity in pull-down assays, enabling studies of LIMK1 isoform-selective functions in cellular model systems and providing a versatile chemical tool for studies of the LIMK signaling pathway.
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