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Structure-Based Design of Type II Inhibitors Applied to Maternal Embryonic Leucine Zipper Kinase

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posted on 2015-01-08, 00:00 authored by Christopher N. Johnson, Christophe Adelinet, Valerio Berdini, Lijs Beke, Pascal Bonnet, Dirk Brehmer, Frederick Calo, Joseph E. Coyle, Phillip J. Day, Martyn Frederickson, Eddy J. E. Freyne, Ron A. H. J. Gilissen, Christopher C. F. Hamlett, Steven Howard, Lieven Meerpoel, Laurence Mevellec, Rachel McMenamin, Elisabeth Pasquier, Sahil Patel, David C. Rees, Joannes T. M. Linders
A novel Type II kinase inhibitor chemotype has been identified for maternal embryonic leucine zipper kinase (MELK) using structure-based ligand design. The strategy involved structural characterization of an induced DFG-out pocket by protein–ligand X-ray crystallography and incorporation of a slender linkage capable of bypassing a large gate-keeper residue, thus enabling design of molecules accessing both hinge and induced pocket regions. Optimization of an initial hit led to the identification of a low-nanomolar, cell-penetrant Type II inhibitor suitable for use as a chemical probe for MELK.

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