953048-66-3Relevant academic research and scientific papers
An exploration of solvent-front region high affinity moiety leading to novel potent ALK & ROS1 dual inhibitors with mutant-combating effects
Lei, Hongrui,Jia, Fang,Cao, Meng,Wang, Jie,Guo, Ming,Zhu, Minglin,Zuo, Daiying,Zhai, Xin
, (2019)
The pyrimidine-2,4-diamine analogs exerted excellent activities in down-regulation of ALK phosphorylation. However, the prevalent drug-resistant site-mutation has gradually prevented the agents from being widely used. Herein, we conducted an exploration of high affinity moiety that bound to the solvent-front region (G1202R located) within the ATP binding site of ALK leading to the synthesis of thirty-five pyrimidine-2,4-diamine derivatives. Among these compounds, urea group was extensively derivatized which finally resulted in the identification of the ‘semi-free urea’ compound 39. All compounds were assayed cytotoxicity and enzymatic activities and 39 turned out to be the most potent one with IC50 values of 2.1, 0.91, 4.3 and 0.73 nM towards ALKwt, ALKL1196M, ALKG1202R and ROS1, respectively. The performances of 39 on ALK- & ROS1-dependent cell lines were in good accordance with enzymatic activities with IC50 values below 0.06 μM. Besides, 39 induced cell apoptosis in a dose-dependent manner in H2228 cells. Finally, the binding models of 39 with ALKwt, ROS1, ALKL1196M and ALKG1202R were ideally established which further clearly elucidated their mode of action within the active site.
Discovery and antitumor activity of Benzo[d]imidazol-containing 2,4-diarylaminopyrimidine analogues as ALK inhibitors with mutation-combating effects
Li, Zheng,Guo, Ming,Cao, Meng,Zhao, Tianming,Li, Mingzhu,Zhai, Xin
, (2021/03/26)
To address drug resistance caused by ALK kinase mutations, a series of novel 2,4-diarylaminopyrimidine (DAAP) analogues were designed by incorporating 1H-benzo[d]imidazol motif onto the maternal framework. All compounds were efficiently synthesized and an
Structure-based design of 2,4-diaminopyrimidine derivatives bearing a pyrrolyl group as ALK and ROS1 inhibitors
Cao, Meng,Guo, Ming,Jiang, Nan,Li, Tong,Wang, Jie,Wei, Shangfei,Xing, Lingyun,Zhai, Xin,Zuo, Daiying
, p. 5850 - 5861 (2020/04/27)
In order to develop potent ALK and ROS1 dual inhibitors, twenty-eight 2,4-diaminopyrimidine derivatives (9a-9n and 10a-10n) bearing a pyrrolyl moiety were designed and synthesized based on the co-crystal structure of ceritinib with ALKwt protein. Most compounds displayed considerable activity against ALK and ROS1 addicted cells; meanwhile, compound 10d showed excellent activity against Karpas299, H2228 and HCC78 with IC50 values of 0.01, 0.08 and 0.042 μM. Subsequently, seven compounds were selected for kinase studies in vitro, resulting in the discovery of 10d with IC50 values of 1.8, 4.3 and 3.6 nM against ALK, ALKL1196M and ROS1, respectively. Furthermore, the biological assays revealed that compound 10d induced cell apoptosis in a dose-dependent manner. Ultimately, molecular docking studies presented reasonable and optimal binding interactions with ALKwt and ROS1.
Aromatic heterocycle-containing 2, 4-diarylaminopyrimidine derivative as well as preparation and application of 2, 4-diarylaminopyrimidine derivative
-
Paragraph 0225; 0239-0241, (2020/08/18)
The invention relates to an aromatic heterocycle-containing 2, 4-diarylaminopyrimidine derivative represented by a general formula I, an optical isomer, a pharmaceutically acceptable salt, a solvate or a prodrug thereof, preparation methods of the aromatic heterocycle-containing 2, 4-diarylaminopyrimidine derivative and the optical isomer, the pharmaceutically acceptable salt, the solvate or the prodrug, and a pharmaceutical composition using the compound represented by the general formula I as an active component, wherein substituents R1, R2, R3, R4, R5, R6, X, Y and Z have meanings given inthe specification. The invention also relates to the compound shown in the general formula I, which has strong ALK and ROS1 kinase inhibition effects, and also relates to application of the compound and the optical isomer and pharmaceutically acceptable salt thereof in preparation of drugs for treatment and/or prevention of diseases caused by ALK and ROS1 abnormal expression, and application of the compound in preparation of drugs for prevention of diseases caused by ALK and ROS1 abnormal expression. Use in particular in the preparation of a medicament for treatment and/or for preventing cancer
Pyrroformyl-containing 2,4-diaminopyrimidine derivatives as a new optimization strategy of ALK inhibitors combating mutations
Cao, Meng,Chen, Yuxiang,Guo, Ming,Wei, Shangfei,Zhai, Xin,Zhao, Tianming
, (2020/09/01)
Aiming to identify new optimization strategy effective for ALK-mutations, two series of pyrroformyl-containing 2,4-diaminopyrimidine compounds (11a-o, 12a-o) were designed, synthesized and evaluated for their anti-proliferative activities against three ca
ANILINE PYRIMIDINE DERIVATIVES AND USES THEREOF
-
Paragraph 0071; 0072; 0093; 0094, (2018/06/04)
The present disclosure relates to aniline pyrimidine derivatives or pharmaceutically acceptable salts thereof as EGFR inhibitors, specifically relates to compounds represented by formula (I) or pharmaceutically acceptable salts, pharmaceutical compositions, the method and uses thereof for treating EGFR mediated diseases.
Dual potent ALK and ROS1 inhibitors combating drug-resistant mutants: Synthesis and biological evaluation of aminopyridine-containing diarylaminopyrimidine derivatives
Guo, Ming,Zuo, Daiying,Zhang, Junlong,Xing, Lingyun,Gou, Wenfeng,Jiang, Feng,Jiang, Nan,Zhang, Dajun,Zhai, Xin
, p. 322 - 333 (2018/09/18)
To identify ALK and ROS1 dual inhibitors conferring resistance to ALK secondary mutations, especially ‘gatekeeper’ L1196 M and the most predominant ceritinib-resistant G1202R mutations, a series of novel 2,4-diarylaminopyrimidine analogues were designed and synthesized by incorporating 2-alkoxy-6-alicyclic aminopyridinyl motifs. The biological evaluations on cellular and enzymatic assays led to identification of compound F-1, which turned out to be effective against ALKWT, ROS1WT, ALKL1196M and ALKG1202R kinases with IC50 of 2.1 nM, 2.3 nM, 1.3 nM and 3.9 nM, respectively, superior to crizotinib and ceritinib. Moreover, F-1 exhibited significant cytotoxicity on ALK-addicted Karpas299, H2228, and Ba/F3 cell expressing G1202R mutant, as well as ROS1-positive HCC78 cell with IC50 values ranging from 10 nM to 43 nM. Notably, F-1 was capable of suppressing phospho-ALK and its relative downstream signaling pathways, and eventually, inducing cell apoptosis in a dose-dependent manner in Karpas-299 cell. Together, F-1 is validated as a promising ALK/ROS1 dual inhibitor great potential for G1202R ALK mutation cancers.
Design, synthesis and biological evaluation N2-(2-alkyoxy-6-aliphatic aminopyridin-3-yl)-2,4-diaminepyrimidine derivatives bearing acylamino or DBTD ‘head’ as potential ALK inhibitors
Xing, Lingyun,Jing, Tongfei,Zhang, Junlong,Guo, Ming,Miao, Xiuqi,Jiang, Feng,Zhai, Xin
, p. 689 - 699 (2018/10/02)
Aiming to develop promising ALK inhibitors, two series of N2-(2-alkyoxy-6-aliphatic aminopyridin-3-yl)-2,4-diaminepyrimidine derivatives (22a-x and 23a-d) were designed according to scaffold hopping and bioisosterism principles. All compounds were efficiently synthesized by concise reactions and anti-proliferative activities on ALK-addicted H2228, Karpas299 cells and EGFR-expressive A549 cell were evaluated by MTT assay. Several compounds exhibited potential cytotoxic activities with IC50 values below 0.10 μM. Five compounds (22g, 22h, 22l, 22s and 23a) were selected for further enzymatic determination, resulting in the discovery of 22l against ALK and ALKL1196M with IC50 values of 2.1 nM and 3.8 nM. Particularly, western blot and cell apoptosis assays identified 22l as a promising ALK inhibitor, which was capable of obviously inhibiting cellular ALK activity and inducing cell apoptosis. Eventually, molecular docking modes of 22l with ALK confirmed structural basis in accordance with the SARs analysis.
2,4-diarylaminopyrimidine derivative as well as preparation method and application thereof
-
Paragraph 0239-0241, (2018/07/03)
The invention relates to a 2,4-diarylaminopyrimidine derivative shown as a general formula I and optical isomers thereof, pharmaceutically acceptable salts, solvates or prodrugs, as well as preparation methods thereof and a pharmaceutical composition taking the compound of the general formula I as an active ingredient. In the formula, substituent groups R1, R2, R3, R4, R5, R6 and X have meanings given in the description. The invention further relates to a compound of the general formula I with strong ALK and ROS1 kinase inhibition effects, and further relates to application of the compounds and optical isomers and pharmaceutically acceptable salts thereof in preparation of medicines for treating and/or preventing diseases caused by abnormal expressions of ALK and ROS1, particularly application in preparation of medicines for treating and/or preventing cancers. The structural formula is as shown in the description.
Structure-Guided Design of Highly Selective and Potent Covalent Inhibitors of ERK1/2
Ward, Richard A.,Colclough, Nicola,Challinor, Mairi,Debreczeni, Judit E.,Eckersley, Kay,Fairley, Gary,Feron, Lyman,Flemington, Vikki,Graham, Mark A.,Greenwood, Ryan,Hopcroft, Philip,Howard, Tina D.,James, Michael,Jones, Clifford D.,Jones, Christopher R.,Renshaw, Jonathan,Roberts, Karen,Snow, Lindsay,Tonge, Michael,Yeung, Kay
supporting information, p. 4790 - 4801 (2015/06/23)
The RAS/RAF/MEK/ERK signaling pathway has been targeted with a number of small molecule inhibitors in oncology clinical development across multiple disease indications. Importantly, cell lines with acquired resistance to B-RAF and MEK inhibitors have been shown to maintain sensitivity to ERK1/2 inhibition by small molecule inhibitors. There are a number of selective, noncovalent ERK1/2 inhibitors reported along with the promiscuous hypothemycin (and related analogues) that act via a covalent mechanism of action. This article reports the identification of multiple series of highly selective covalent ERK1/2 inhibitors informed by structure-based drug design (SBDD). As a starting point for these covalent inhibitors, reported ERK1/2 inhibitors and a chemical series identified via high-throughput screening were exploited. These approaches resulted in the identification of selective covalent tool compounds for potential in vitro and in vivo studies to assess the risks and or benefits of targeting this pathway through such a mechanism of action.
