| Literature DB >> 34008286 |
David Quach1,2, Guanghui Tang3, Jothi Anantharajan2, Nithya Baburajendran2, Anders Poulsen2, John L K Wee2, Priya Retna2, Rong Li2, Boping Liu2, Doris H Y Tee2, Perlyn Z Kwek2, Joma K Joy2, Wan-Qi Yang4, Chong-Jing Zhang4, Klement Foo2, Thomas H Keller2, Shao Q Yao1,3.
Abstract
Targeted covalent inhibitors have re-emerged as validated drugs to overcome acquired resistance in cancer treatment. Herein, by using a carbonyl boronic acid (CBA) warhead, we report the structure-based design of BCR-ABL inhibitors via reversible covalent targeting of the catalytic lysine with improved potency against both wild-type and mutant ABL kinases, especially ABLT315I bearing the gatekeeper residue mutation. We show the evolutionarily conserved lysine can be targeted selectively, and the selectivity depends largely on molecular recognition of the non-covalent pharmacophore in this class of inhibitors, probably due to the moderate reactivity of the warhead. We report the first co-crystal structures of covalent inhibitor-ABL kinase domain complexes, providing insights into the interaction of this warhead with the catalytic lysine. We also employed label-free mass spectrometry to evaluate off-targets of our compounds at proteome-wide level in different mammalian cells.Entities:
Keywords: cancer; covalent inhibitors; lysine; proteomics; reversibility
Year: 2021 PMID: 34008286 DOI: 10.1002/anie.202105383
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336