20389-05-3Relevant articles and documents
Discovery of novel tubulin inhibitors targeting the colchicine binding site via virtual screening, structural optimization and antitumor evaluation
Liu, Wei,Jia, Hairui,Guan, Minghao,Cui, Minxuan,Lan, Zhuxuan,He, Youyou,Guo, Zhongjie,Jiang, Ru,Dong, Guoqiang,Wang, Shengzheng
, (2021/11/22)
The colchicine binding site of tubulin is a promising target for discovering novel antitumor agents which exert the antiangiogenic effect and are not susceptible to multidrug resistance. For identifying novel tubulin inhibitors, structure-based virtual screening was applied to identify hit 9 which displayed moderate tubulin polymerization inhibition and broad-spectrum in vitro antitumor activity. Structural optimization was performed, and biological assay revealed analog E27 displayed the best antitumor activity with IC50 values ranging from 7.81 μM to 10.36 μM, and improved tubulin polymerization inhibitory activity (IC50 = 16.1 μM). It significantly inhibited cancer cell migration and invasion, induced cell apoptosis and arrested the cell cycle at G2/M phase. Moreover, the apoptotic effect of E27 is related to the increased ROS level, the decrease of MMP, and the abnormal expression of apoptosis-related proteins. Taken together, these results suggested E27 was a promising lead compound for discovering novel tubulin-targeted antitumor agents.
New quinoline/chalcone hybrids as anti-cancer agents: Design, synthesis, and evaluations of cytotoxicity and PI3K inhibitory activity
Abbas, Samar H.,Abd El-Hafeez, Amer Ali,Shoman, Mai E.,Montano, Monica M.,Hassan, Heba A.
supporting information, p. 360 - 377 (2018/11/23)
A series of quinoline-chalcone hybrids was designed as potential anti-cancer agents, synthesized and evaluated. Different cytotoxic assays revealed that compounds experienced promising activity. Compounds 9i and 9j were the most potent against all the cell lines tested with IC50 = 1.91–5.29 μM against A549 and K-562 cells. Mechanistically, 9i and 9j induced G2/M cell cycle arrest and apoptosis in both A549 and K562 cells. Moreover, all PI3K isoforms were inhibited non selectively with IC50s of 52–473 nM when tested against the two mentioned compounds with 9i being most potent against PI3K-γ (IC50 = 52 nM). Docking of 9i and 9j showed a possible formation of H-bonding with essential valine residues in the active site of PI3K-γ isoform. Meanwhile, Western blotting analysis revealed that 9i and 9j inhibited the phosphorylation of PI3K, Akt, mTOR, as well as GSK-3β in both A549 and K562 cells, suggesting the correlation of blocking PI3K/Akt/mTOR pathway with the above antitumor activities. Together, our findings support the antitumor potential of quinoline-chalcone derivatives for NSCLC and CML by inhibiting the PI3K/Akt/mTOR pathway.
Phenylquinoline transient receptor potential vanilloid 1 antagonists for the treatment of pain: Discovery of 1-(2-phenylquinoline-4-carbonyl)-N-(4-(trifluoromethyl)phenyl)pyrrolidine-3-carboxamide
Liao, Chen,Liu, Yan,Liu, Chunxia,Zhou, Jiaqi,Li, Huilan,Wang, Nasi,Li, Jieming,Liu, Taiyu,Ghaleb, Hesham,Huang, Wenlong,Qian, Hai
, p. 845 - 854 (2018/01/10)
Reported herein is the design, synthesis, and pharmacologic characterization of a class of TRPV1 antagonists constructed on a phenylquinoline platform that evolved from Cinchophen lead. This design composes three sections: a phenylquinoline headgroup attached to an aliphatic carboxamides, which is tethered at a phenyl tail group. Optimization of this design led to the identification of 37, comprising a pyrrolidine linker and a trifluoromethyl–phenyl tail. In the TRPV1 functional assay, using cells expressed hTRPV1, 37 antagonized capsaicin-induced Ca2+ influx, with an IC50 value of 10.2 nM. In the complete mice analgesic model, 37 exhibited better antinociceptive activity than the positive control BCTC in diverse pain models. All of these results suggested that 37 could be considered as a lead candidate for the further development of antinociceptive drugs.
