Discovery of inhibitors of the mitotic kinase TTK based on N-(3-(3-sulfamoylphenyl)-1H-indazol-5-yl)-acetamides and carboxamides
TTK kinase was identified by in-house siRNA screen and pursued as a tractable, novel target for cancer treatment. A screening campaign and systematic optimization, supported by computer modeling led to an indazole core with key sulfamoylphenyl and acetamido moieties at positions 3 and 5, respectively, establishing a novel chemical class culminating in identification of 72 (CFI-400936). This potent inhibitor of TTK (IC50 = 3.6 nM) demonstrated good activity in cell based assay and selectivity against a panel of human kinases. A co-complex TTK X-ray crystal structure and results of a xenograft study with TTK inhibitors from this class are described.
Laufer, Radoslaw,Ng, Grace,Liu, Yong,Patel, Narendra Kumar B.,Edwards, Louise G.,Lang, Yunhui,Li, Sze-Wan,Feher, Miklos,Awrey, Don E.,Leung, Genie,Beletskaya, Irina,Plotnikova, Olga,Mason, Jacqueline M.,Hodgson, Richard,Wei, Xin,Mao, Guodong,Luo, Xunyi,Huang, Ping,Green, Erin,Kiarash, Reza,Lin, Dan Chi-Chia,Harris-Brandts, Marees,Ban, Fuqiang,Nadeem, Vincent,Mak, Tak W.,Pan, Guohua J.,Qiu, Wei,Chirgadze, Nickolay Y.,Pauls, Henry W.
p. 4968 - 4997
(2014/10/16)
KINASE INHIBITORS AND METHOD OF TREATING CANCER WITH SAME
The present teachings provide a compound represented by Structural Formula (I): or a pharmaceutically acceptable salt thereof. Also described are a pharmaceutical composition and method of use thereof.
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Page/Page column 152-153
(2011/10/31)
Rho KINASE INHIBITORS
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(2010/02/06)
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