Design, synthesis, and molecular docking studies of diphenylquinoxaline-6-carbohydrazide hybrids as potent α-glucosidase inhibitors

被引:0
作者
Keyvan Pedrood
Zahra Rezaei
Kimia Khavaninzadeh
Bagher Larijani
Aida Iraji
Samanesadat Hosseini
Somayeh Mojtabavi
Mehdi Dianatpour
Hossein Rastegar
Mohammad Ali Faramarzi
Haleh Hamedifar
Mir Hamed Hajimiri
Mohammad Mahdavi
机构
[1] Tehran University of Medical Sciences,Endocrinology and Metabolism Research Center, Endocrinology and Metabolism Clinical Sciences Institute
[2] Iran University of Medical Sciences,Department of Medicinal Chemistry, School of Pharmacy
[3] Shiraz University of Medical Sciences,Stem Cells Technology Research Center
[4] Shiraz University of Medical Sciences,Central Research Laboratory
[5] Shahid Beheshti University of Medical Sciences,Department of Pharmaceutical Chemistry, School of Pharmacy
[6] Tehran University of Medical Sciences,Department of Pharmaceutical Biotechnology, Faculty of Pharmacy & Biotechnology Research Center
[7] Iranian Food and Drug Administration,Cosmetic Products Research Center
[8] MOHE,CinnaGen Medical Biotechnology Research Center
[9] Alborz University of Medical Sciences,undefined
[10] Nano Alvand Company,undefined
[11] Tehran University of Medical Sciences,undefined
来源
BMC Chemistry | / 16卷
关键词
α-glucosidase inhibition; Type 2 diabetes; Quinoxaline; Hydrazone; Molecular docking;
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摘要
A novel series of diphenylquinoxaline-6-carbohydrazide hybrids 7a–o were rationally designed and synthesized as anti-diabetic agents. All synthesized compounds 7a–o were screened as possible α-glucosidase inhibitors and exhibited good inhibitory activity with IC50 values in the range of 110.6 ± 6.0 to 453.0 ± 4.7 µM in comparison with acarbose as the positive control (750.0 ± 10.5 µM). An exception in this trend came back to a compound 7k with IC50 value > 750 µM. Furthermore, the most potent derivative 7e bearing 3-fluorophenyl moiety was further explored by kinetic studies and showed the competitive type of inhibition. Additionally, the molecular docking of all derivatives was performed to get an insight into the binding mode of these derivatives within the active site of the enzyme. In silico assessments exhibited that 7e was well occupied in the binding pocket of the enzyme through favorable interactions with residues, correlating to the experimental results.
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