143251-36-9Relevant articles and documents
Design, synthesis and biological evaluation of novel acridine and quinoline derivatives as tubulin polymerization inhibitors with anticancer activities
Ren, Yichang,Ruan, Yong,Cheng, Binbin,Li, Ling,Liu, Jin,Fang, Yuyu,Chen, Jianjun
, (2021/08/30)
A series of acridine and quinoline derivatives were designed and synthesized based on our previous work as novel tubulin inhibitors targeting the colchicine binding site. Among them, compound 3b exhibited the highest antiproliferative activity with an IC50 of 261 nM against HepG-2 cells (the most sensitive cell line). In addition, compound 3b was able to suppress the formation of HepG-2 colonies. Mechanism studies revealed that compound 3b effectively inhibited tubulin polymerization in vitro and disrupted microtubule dynamics in HepG-2 cells. Furthermore, compound 3b inhibited the migration of cancer cells in a dose dependent manner. Moreover, compound 3b induced cell cycle arrest in G2/M phase and led to cell apoptosis. Finally, docking studies demonstrated that compound 3b fitted nicely in the colchicine binding site of tubulin and overlapped well with CA-4. Collectively, these results suggested that compound 3b represents a novel tubulin inhibitor deserving further investigation.
Functionalized acridin-9-yl phenylamines protected neuronal HT22 cells from glutamate-induced cell death by reducing intracellular levels of free radical species
Nguyen, Thuy,Yang, Tianming,Go, Mei-Lin
supporting information, p. 1830 - 1838 (2014/04/17)
The in vitro neuronal cell death model based on the HT22 mouse hippocampal cell model is a convenient means of identifying compounds that protect against oxidative glutamate toxicity which plays a role in the development of certain neurodegenerative diseases. Functionalized acridin-9-yl-phenylamines were found to protect HT22 cells from glutamate challenge at submicromolar concentrations. The Aryl1-NH-Aryl2 scaffold that is embedded in these compounds was the minimal pharmacophore for activity. Mechanistically, protection against the endogenous oxidative stress generated by glutamate did not involve up-regulation of glutathione levels but attenuation of the late stage increases in mitochondrial ROS and intracellular calcium levels. The NH residue in the pharmacophore played a crucial role in this regard as seen from the loss of neuroprotection when it was structurally modified or replaced. That the same NH was essential for radical scavenging in cell-free and cell-based systems pointed to an antioxidant basis for the neuroprotective activities of these compounds.
Exploration of acridine scaffold as a potentially interesting scaffold for discovering novel multi-target VEGFR-2 and Src kinase inhibitors
Luan, Xudong,Gao, Chunmei,Zhang, Nannan,Chen, Yuzong,Sun, Qinsheng,Tan, Chunyan,Liu, Hongxia,Jin, Yibao,Jiang, Yuyang
, p. 3312 - 3319 (2011/07/08)
VEGFR-2 and Src kinases both play important roles in cancers. In certain cancers, Src works synergistically with VEGFR-2 to promote its activation. Development of multi-target drugs against VEGFR-2 and Src is of therapeutic advantage against these cancers. By using molecular docking and SVM virtual screening methods and based on subsequent synthesis and bioassay studies, we identified 9-aminoacridine derivatives with an acridine scaffold as potentially interesting novel dual VEGFR-2 and Src inhibitors. The acridine scaffold has been historically used for deriving topoisomerase inhibitors, but has not been found in existing VEGFR-2 inhibitors and Src inhibitors. A series of 21 acridine derivatives were synthesized and evaluated for their antiproliferative activities against K562, HepG-2, and MCF-7 cells. Some of these compounds showed better activities against K562 cells in vitro than imatinib. The structure-activity relationships (SAR) of these compounds were analyzed. One of the compounds (7r) showed low μM activity against K562 and HepG-2 cancer cell-lines, and inhibited VEGFR-2 and Src at inhibition rates of 44% and 8% at 50 μM, respectively, without inhibition of topoisomerase. Moreover, 10 μM compound 7r could reduce the levels of activated ERK1/2 in a time dependant manner, a downstream effector of both VEGFR-2 and Src. Our study suggested that acridine scaffold is a potentially interesting scaffold for developing novel multi-target kinase inhibitors such as VEGFR-2 and Src dual inhibitors.
