Recently, multitargeted drugs are considered a potential approach in treating cancer. In this study, twelve in-house indole-based derivatives were preliminary evaluated for their inhibitory activities over VEGFR-2, CDK-1/cyclin B and HER-2. Compound showed the most inhibitory activities among the tested derivatives over CDK-1/cyclin B and HER-2. Compound was tested for its selectivity in a small kinase panel. It showed dual selectivity for CDK-1/cyclin B and HER-2. Moreover, in vitro cytotoxicity assay was assessed for the selected series against nine NCI cell lines. Compound showed the most potent inhibitory activities among the tested compounds. A deep in silico molecular docking study was conducted for compound to identify the possible binding modes into CDK-1/cyclin B and HER-2. The docking results revealed that compound displayed interesting binding modes with the key amino acids in the binding sites of both kinases. In vitro and in silico studies demonstrate the indole-based derivative as a selective dual CDK-1 and HER-2 inhibitor. This emphasizes a new challenge in drug development strategies and signals a significant milestone for further structural and molecular optimization of these indole-based derivatives in order to achieve a drug-like property.
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http://dx.doi.org/10.3390/molecules26175324 | DOI Listing |
Molecules
September 2021
Chemical Kinomics Research Center, Korea Institute of Science and Technology (KIST), Seoul 02792, Korea.
Recently, multitargeted drugs are considered a potential approach in treating cancer. In this study, twelve in-house indole-based derivatives were preliminary evaluated for their inhibitory activities over VEGFR-2, CDK-1/cyclin B and HER-2. Compound showed the most inhibitory activities among the tested derivatives over CDK-1/cyclin B and HER-2.
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