Synthesis, Structural Studies, and α-Glucosidase Inhibitory, Antidiabetic, and Antioxidant Activities of 2,3-Dihydroquinazolin-4(1<i>H</i>)-ones Derived from Pyrazol-4-carbaldehyde and Anilines

Barmak, Alireza; Niknam, Khodabakhsh; Mohebbi, Gholamhossein

doi:10.1021/acsomega.9b01906

Cited by 44 publications

(24 citation statements)

References 74 publications

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“…Results shows that all compounds 1 – 10 are excellent inhibitors of α‐glucosidase with IC 50 in the range of 45.8–74.5 μ M compared to standard 1‐deoxynojirimycin (DNJ) with an IC 50 value of 425.6 μ M. Study reveals that precursor enoxacin exhibit and IC 50 value of 58.9 μ M while substitution of benzyl group as in compound 1 increases the inhibition potential to a small extent with an IC 50 value of 57.8 μ M. Substitution of chloro at meta and para position as in molecules 5 , bromo at ortho 6 and fluoro at ortho and para position 8 on benzyl further increased the inhibition potentials IC 50 values 52.7, 45.8 and 48.7 μ M. Whereas compounds 2 , 3 , 4 , 7 , 9 and 10 were found to have higher IC 50 values in the range of 59.8‐74.5 μ M. Compound 6 was found to be a most potent inhibitor of α ‐glucosidase with an IC 50 value 45.8 μ M. Studies found that position and nature of substituent group shows effect on inhibition potential [40–43] . It is suggested that little variation in hydrogen bonding between protein active sites and synthetic compounds are responsible for variation in inhibition potential of these compounds against α ‐glucosidase [44–46] .…”

Section: Resultsmentioning

confidence: 95%

Design and Synthesis of Fluoroquinolone Derivatives as Potent α‐Glucosidase Inhibitors: In Vitro Inhibitory Screening with In Silico Docking Studies

et al. 2021

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Fluoroquinolones are extensively used in clinical applications as a crucial class of antibacterial medicine and have shown high potential for the treatment of several other diseases. This study is based on synthesis, structure elucidation and biological evaluation of various fluoroquinolone (enoxacin) analogues with electrophilic substitution of aromatic amine moiety of central enoxacin nucleus by benzyl halides. The synthesized derivatives were characterized on the basis of different chemical and physical measurements and structures were elucidated by various spectroscopic techniques (NMR, EI‐MS), including elemental (CHN), and X‐ray diffraction analysis. Furthermore these compounds were investigated for their potential α‐glucosidase inhibition activities and all synthesized analogues of fluoroquinolones were found to exhibit promising inhibition potential of 45.8±0.2 to 74.5±0.2 μM in comparison to IC50 value of 425.6±1.3 μM for standard inhibitor of α‐glucosidase1‐deoxynojirimycin. Further, docking of synthetic compounds were carried out by using α‐glucosidase I enzyme of Saccharomyces cerevisiaeas a target. The study provided an insight of the molecular interactions of fluoroquinolone derivatives with the enzyme that are in good agreement with the inhibitory activity of synthesized compounds and can be considered as a valuable tool for designing new drugs.

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Section: Resultsmentioning

confidence: 95%

Design and Synthesis of Fluoroquinolone Derivatives as Potent α‐Glucosidase Inhibitors: In Vitro Inhibitory Screening with In Silico Docking Studies

et al. 2021

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“…Quinazolines have a broad range of pharmacological applications, in addition to their low toxicity profiles [ 3 ]. Quinazoline frameworks have great pharmacological activities as antioxidant [ 7 , 8 , 9 ], antidiabetic [ 10 , 11 , 12 ], antibacterial [ 13 , 14 , 15 ], antiviral [ 16 , 17 , 18 ], antimicrobial [ 19 , 20 , 21 ], anticancer [ 22 , 23 ], antihistaminic [ 24 , 25 , 26 ], antidiuretic [ 27 , 28 ], antitubercular [ 29 , 30 , 31 ], and anti-inflammatory [ 32 , 33 , 34 ] agents. Quinazolinones are a type of quinazoline derivative that are biologically active in the same way as quinazoline [ 35 ].…”

Section: Introductionmentioning

confidence: 99%

Synthesis, X-ray Structure, Hirshfeld, DFT and Biological Studies on a Quinazolinone-Nitrate Complex

et al. 2022

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The reaction of 4-hydroxyquinazoline (4HQZ) with aqueous solution of nitric acid afforded the corresponding quinazolinone-nitrate (4HQZN) complex in very good yield. The crystal structure of 4HQZN was determined and its structural and supramolecular structural aspects were analyzed. 4HQZN crystallized in the space group P21/c and monoclinic crystal system with one [4HQZ-H]+[NO3]− formula and Z = 4. Its supramolecular structure could be described as a 2D infinite layers in which the 4HQZN molecules are connected via N-H…O and C-H…O hydrogen bridges. Using DFT calculations, the relative stability of five suggested isomers of 4HQZN were predicted. It was found that the medium effects have strong impact not only on the isomers’ stability but also on the structure of the 4HQZN. It was found that the structure of 4HQZN in DMSO and methanol matched well with the reported X-ray structure which shed the light on the importance of the intermolecular interactions on the isomers’ stability. The structure of 4HQZN could be described as a proton transfer complex in which the nitrate anion acting as an e-donor whiles the protonated 4HQZ is an e-acceptor. In contrast, the structure of the isolated 4HQZN in gas phase and in cyclohexane could be described as a 4HQZ…HNO3 hydrogen bonded complex. Biological screening of the antioxidant, anticancer and antimicrobial activities of 4HQZ and 4HQZN was presented and compared. It was found that, 4HQZN has higher antioxidant activity (IC50 = 36.59 ± 1.23 µg/mL) than 4HQZ. Both of 4HQZ and 4HQZN showed cell growth inhibition against breast (MCF-7) and lung (A-549) carcinoma cell lines with different extents. The 4HQZ has better activity with IC50 of 178.08 ± 6.24 µg/mL and 119.84 ± 4.98 µg/mL, respectively. The corresponding values for 4HQZN are 249.87 ± 9.71 µg/mL and 237.02 ± 8.64 µg/mL, respectively. Also, the antibacterial and antifungal activities of 4HQZN are higher than 4HQZ against all studied microbes. The most promising result is for 4HQZN against A. fumigatus (MIC = 312.5 mg/mL).

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“…In most cases, the prescribed antidiabetic drugs are responsible for various side effects such as liver problems, diarrhea, lactic acidosis, and high rate of secondary failure. So that, the discovery of novel small molecules with potential usefulness as potent hypoglycemic agents is still a major challenge to medicinal chemistry researchers (Barmak, Niknam et al 2019).…”

Section: Introductionmentioning

confidence: 99%

Review on the Significance of Quinazolinone Derivatives as Potent Antihyperglycemic Agents

Sakr

2022

Al-Azhar Journal of Pharmaceutical Sciences

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Diabetes mellitus is a chronic metabolic disease which is characterized by high blood sugar levels over a prolonged period of time. Uncontrolled hyperglycemia can lead to serious damage to many vital organs in the body, including kidney damage, heart disease, and nerve damage. The goal of treatment of diabetes mellitus is reduction of blood glucose levels and controlling subsequent complications. Different mechanisms are involved in diabetes mellitus treatment.Quinazolinone and its derivatives have been found as effective and versatile pharmacophoric units in medicinal chemistry to design and develop a wide range of bioactive compounds.The present review summarizes the advances in lead compounds of quinazolinone hybrids and their related heterocycles in treatment of diabetes mellitus. Moreover, the review also helps to intensify the drug development process by providing an understanding of the potential role of these hybridized pharmacophoric features in exhibiting the hypoglycemic effect.

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Synthesis, Structural Studies, and α-Glucosidase Inhibitory, Antidiabetic, and Antioxidant Activities of 2,3-Dihydroquinazolin-4(1H)-ones Derived from Pyrazol-4-carbaldehyde and Anilines

Cited by 44 publications

References 74 publications

Design and Synthesis of Fluoroquinolone Derivatives as Potent α‐Glucosidase Inhibitors: In Vitro Inhibitory Screening with In Silico Docking Studies

Design and Synthesis of Fluoroquinolone Derivatives as Potent α‐Glucosidase Inhibitors: In Vitro Inhibitory Screening with In Silico Docking Studies

Synthesis, X-ray Structure, Hirshfeld, DFT and Biological Studies on a Quinazolinone-Nitrate Complex

Review on the Significance of Quinazolinone Derivatives as Potent Antihyperglycemic Agents

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