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2000
Volume 20, Issue 5
  • ISSN: 1570-1794
  • E-ISSN: 1875-6271

Abstract

Background: Quinoline and its derivatives have been shown to display a wide spectrum of biological properties, especially anticancer activity. Particularly, diverse potent anticancer drugs are based on the 4-phenoxyquinoline skeleton, acting as small-molecules VEGR2 and/or c-Met kinase inhibitors. However, the design of new drugs based on these quinoline derivatives remains a challenge. Up till now, all approaches to 4-phenoxyquinoline skeleton construction do not obey any green chemistry principles. Aims and Objectives: Developing a new, and efficient protocol for the synthesis of potentially bioactive 4-phenoxyquinoline derivatives and benzazole-quinoline-quinoline hybrids from commercially available 4,7-dichloroquinoline and phenol derivatives using microwave energy (MW) in the presence of 1-methyl 3-butylimidazolium hexafluorophosphate. Methods: Neweco-efficient protocol for valuable 7-chloro-4-phenoxyquinolines and their hybrids, which is based on SNAr reaction of 4,7-dichloroquinoline with respective simple phenols and hydroxyaryl- benzazoles under MWenergy in green reaction media, is studied for the first time. Results: We found that among various solvents tested, the ionic liquid 1-methyl 3-butylimidazolium hexafluorophosphate ([bmim][PF]) favored the SNAr reaction affording phenoxyquinolines in excellent yields (72-82%) in 10 min. The developed protocol allowed to obtain quickly in good yields (48-60%) new diverse benzazole-quinoline hybrids, which are expected to be pharmacologically active. According to the calculated bioactivity scores, new hybrids are potential kinase inhibitors that could be useful in anticancer drug research. Conclusion: We developed for the first time a new green, efficient method to prepare potentially bioactive functionalized 7-chloro-4-phenoxyquinolines and benzazole-quinoline molecules. Good to excellent yields of the quinoline products, use of MW irradiation in ([bmim] [PF] as a green solvent, and short times of reactions are some of the main advantages of this new protocol.

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/content/journals/cos/10.2174/1570179419666220830090614
2023-08-01
2024-11-26
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