化学
极光激酶B
变构调节
对接(动物)
行动方式
作用机理
立体化学
非竞争性抑制
激酶
生物化学
极光抑制剂
结构-活动关系
酶
体外
细胞周期
基因
主轴装置
细胞分裂
细胞
医学
护理部
作者
C. Juillet,Ludmila Ermolenko,Dina V. Boyarskaya,Blandine Baratte,Béatrice Josselin,Hristo Nedev,Stéphane Bach,Bogdan I. Iorga,Jérôme Bignon,Sandrine Ruchaud,Ali Al‐Mourabit
标识
DOI:10.1021/acs.jmedchem.0c02064
摘要
Significant inhibition of Aurora B was achieved by the synthesis of simplified fragments of benzosceptrins and oroidin belonging to the marine pyrrole-2-aminoimidazoles metabolites isolated from sponges. Evaluation of kinase inhibition enabled the discovery of a synthetically accessible rigid acetylenic structural analogue EL-228 (1), whose structure could be optimized into the potent CJ2-150 (37). Here we present the synthesis of new inhibitors of Aurora B kinase, which is an important target for cancer therapy through mitosis regulation. The biologically oriented synthesis yielded several nanomolar inhibitors. The optimized compound CJ2-150 (37) showed a non-ATP competitive allosteric mode of action in a mixed-type inhibition for Aurora B kinase. Molecular docking identified a probable binding mode in the allosteric site "F" and highlighted the key interactions with the protein. We describe the improvement of the inhibitory potency and specificity of the novel scaffold as well as the characterization of the mechanism of action.
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