106556-63-2Relevant articles and documents
Design, synthesis, biological evaluation and pharmacophore model analysis of novel tetrahydropyrrolo[3,4-c]pyrazol derivatives as potential TRKs inhibitors
Cheng, Maosheng,Liu, Nian,Lv, Ruicheng,Qin, Qiaohua,Sun, Yin,Sun, Yixiang,Wang, Ruifeng,Wang, Xiaoyan,Wu, Tianxiao,Yin, Wenbo,Zhang, Chu,Zhao, Dongmei
, (2021/06/28)
The tropomyosin receptor kinases TRKs are responsible for different tumor types which caused by NTRK gene fusion, and have been identified as a successful target for anticancer therapeutics. Herein, we report a potent and selectivity TRKs inhibitor 19m through rational drug design strategy from a micromolar potency hit 17a. Compound 19m significantly inhibits the proliferation of TRK-dependent cell lines (Km-12), while it has no inhibitory effect on TRK-independent cell lines (A549 and THLE-2). Furthermore, kinases selectivity profiling showed that in addition to TRKs, compound 19m only displayed relatively strong inhibitory activity on ALK. These data may indicate that compound 19m has a good drug safety. Partial ADME properties were evaluated in vitro and in vivo. Compound 19m exhibited a good AUC values and volume of distribution and low clearance in the pharmacokinetics experiment of rats. Finally, a pharmacophore model guided by experimental results is proposed. We hope this theoretical model can help researchers find type I TRK inhibitors more efficiently.
Discovery of pyrroloaminopyrazoles as novel PAK inhibitors
Guo, Chuangxing,McAlpine, Indrawan,Zhang, Junhu,Knighton, Daniel D.,Kephart, Susan,Johnson, M. Catherine,Li, Haitao,Bouzida, Djamal,Yang, Anle,Dong, Liming,Marakovits, Joseph,Tikhe, Jayashree,Richardson, Paul,Guo, Lisa C.,Kania, Robert,Edwards, Martin P.,Kraynov, Eugenia,Christensen, James,Piraino, Joseph,Lee, Joseph,Dagostino, Eleanor,Del-Carmen, Christine,Deng, Ya-Li,Smeal, Tod,Murray, Brion W.
experimental part, p. 4728 - 4739 (2012/07/28)
The P21-activated kinases (PAK) are emerging antitumor therapeutic targets. In this paper, we describe the discovery of potent PAK inhibitors guided by structure-based drug design. In addition, the efflux of the pyrrolopyrazole series was effectively reduced by applying multiple medicinal chemistry strategies, leading to a series of PAK inhibitors that are orally active in inhibiting tumor growth in vivo.
SUBSTITUTED PYRROLO-PYRAZOLE DERIVATIVES AS KINASE INHIBITORS
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Page 47-48, (2008/06/13)
Compounds represented by formula (Ia) or (lb) and wherein R and R1 are as defined in the description, and pharmaceutically acceptable salts thereof, are disclosed; the said compounds are useful in the treatment of cell cycle proliferative disor