1089283-41-9Relevant academic research and scientific papers
Discovery of a Pyrimidothiazolodiazepinone as a Potent and Selective Focal Adhesion Kinase (FAK) Inhibitor
Groendyke, Brian J.,Nabet, Behnam,Mohardt, Mikaela L.,Zhang, Haisheng,Peng, Ke,Koide, Eriko,Coffey, Calvin R.,Che, Jianwei,Scott, David A.,Bass, Adam J.,Gray, Nathanael S.
supporting information, p. 30 - 38 (2021/01/11)
Focal adhesion kinase (FAK) is a tyrosine kinase with prominent roles in protein scaffolding, migration, angiogenesis, and anchorage-independent cell survival and is an attractive target for the development of cancer therapeutics. However, current FAK inhibitors display dual kinase inhibition and/or significant activity on several kinases. Although multitargeted activity is at times therapeutically advantageous, such behavior can also lead to toxicity and confound chemical-biology studies. We report a novel series of small molecules based on a tricyclic pyrimidothiazolodiazepinone core that displays both high potency and selectivity for FAK. Structure-activity relationship (SAR) studies explored modifications to the thiazole, diazepinone, and aniline "tail,"which identified lead compound BJG-03-025. BJG-03-025 displays potent biochemical FAK inhibition (IC50 = 20 nM), excellent kinome selectivity, activity in 3D-culture breast and gastric cancer models, and favorable pharmacokinetic properties in mice. BJG-03-025 is a valuable chemical probe for evaluation of FAK-dependent biology.
Discovery and structure ? activity relationship exploration of pyrazolo[1,5-a]pyrimidine derivatives as potent FLT3-ITD inhibitors
Chen, Yun,Bai, Gang,Li, Yan,Ning, Yi,Cao, Sufen,Zhou, Jinpei,Ding, Jian,Zhang, Huibin,Xie, Hua,Duan, Wenhu
supporting information, (2021/09/28)
Internal tandem duplications of FLT3 (FLT3-ITD) occur in approximately 25% of all acute myeloid leukemia (AML) cases and confer a poor prognosis. Optimization of the screening hit 1 from our in-house compound library led to the discovery of a series of pyrazolo[1,5-a]pyrimidine derivatives as potent and selective FLT3-ITD inhibitors. Compounds 17 and 19 displayed potent FLT3-ITD activities both with IC50 values of 0.4 nM and excellent antiproliferative activities against AML cell lines. Especially, compounds 17 and 19 inhibited the quizartinib resistance- conferring mutations, FLT3D835Y, both with IC50 values of 0.3 nM. Moreover, western blot analysis indicated that compounds 17 and 19 potently inhibited the phosphorylation of FLT3 and attenuated downstream signaling in AML cells. These results indicated that pyrazolo[1,5-a]pyrimidine derivatives could be promising FLT3-ITD inhibitors for the treatment AML.
Novel pyrimido-heterocyclic compound and preparation method and application thereof
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, (2019/02/19)
The invention discloses a novel pyrimido-heterocyclic compound and a preparation method and application thereof. The structure of the pyrimido-heterocyclic compound disclosed by the invention is as shown in a general formula I, and the definitions of all substituents are described in the specification and claims. The pyrimido-heterocyclic compound disclosed by the invention has much better inhibitory activity and selectivity for double-mutant EGFR kinase than the existing AZD-9291, can be used for preparing anti-tumor drugs, and overcomes the defect of drug tolerance of the first generation ofEGFR inhibitor.
2,4-dibasic miazines compound
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Paragraph 0231; 0232; 0233; 0234, (2017/08/29)
The invention belongs to the field of medical chemistry, relates to a 2,4-dibasic miazines compound and specifically relates to a compound shown as formula (I) or a pharmaceutically acceptable salt thereof, a drug compound thereof and an application thereof in treating EGFR or/and ALK mediated diseases.
COMPOUNDS AND THERAPEUTIC USES THEREOF
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Page/Page column 132, (2010/11/03)
The invention relates to compounds, pharmaceutical compositions, and uses thereof, including therapeutic uses thereof, such as methods useful for treating cancer.
