<i>α</i>‐Glucosidase Inhibitory Activity of Prenylated Pyranocoumarins from <i>Clausena excavata</i>: Mechanism of Action, ADMET and Molecular Docking-Reference-Cited by-同舟云学术

α‐Glucosidase Inhibitory Activity of Prenylated Pyranocoumarins from Clausena excavata: Mechanism of Action, ADMET and Molecular Docking

Published:2024-08-07 Issue:9 Volume:21 Page:
ISSN:1612-1872
Container-title:Chemistry & Biodiversity
language:en
Short-container-title:Chemistry & Biodiversity

Author:

Promden Worrawat¹^ORCID,Lophaet Aphiwat¹,Sripadung Ployvadee²^ORCID,Sungthong Bunleu²^ORCID,Samsee Thanatcha³,Ploylearmsang Chanuttha⁴^ORCID,Kijjoa Anake⁵^ORCID,Seephonkai Prapairat³^ORCID

Affiliation:

1. Division of General Science Faculty of Education Buriram Rajabhat University Buriram 31000 Thailand

2. Integrative Pharmaceuticals and Innovative of Pharmaceutical Technology Research Unit Faculty of Pharmacy Mahasarakham University Khamriang, Kantarawichai Maha Sarakham 44150 Thailand

3. Department of Chemistry and Center of Excellence for Innovation in Chemistry (PERCH-CIC) Faculty of Science Mahasarakham University Khamriang, Kantarawichai Maha Sarakham 44150 Thailand

4. Social Pharmacy Research Unit Faculty of Pharmacy Mahasarakham University Khamriang, Kantarawichai Maha Sarakham 44150 Thailand

5. Instituto de Ciências Biomédicas Abel Salazar and CIIMAR Universidade do Porto Rua de Jorge Viterbo Ferreira, 228 4050-313 Porto Portugal

Abstract

AbstractThree naturally occurring prenylated pyranocoumarins, nordentatin (1), dentatin (2), and clausarin (3), isolated from the roots of Clausena excavata (Family Rutaceae), and O‐methylclausarin (4) which was obtained by methylation of 3, were investigated for their α‐glucosidase inhibitory activity. The mechanism of action and the in silico prediction of their physicochemical and ADMET properties as well as the molecular docking were also studied. Compounds 1–4 exhibited stronger α‐glucosidase inhibitory activity than the positive control, acarbose, through a non‐competitive mechanism. Among them, 3 exhibited the highest activity, with an IC50 of 8.36 μM, which is significantly stronger than that of acarbose (IC50=430.35 μM). The prenyl group on C‐3 and the hydroxyl group on C‐5 in 3 may play important roles in enhancing the activity. Calculated physicochemical and ADMET parameters of 1–4 satisfied the Lipinski's and Veber's rules. Molecular simulation analysis indicated they are promising drug candidates with no hepatotoxicity. Compound 3 exhibited potent activity in the experiment and demonstrated good drug properties based on the calculations. A molecular docking study revealed that 3 showed H‐bonding and π‐π stacking interactions with selective Phe321, as well as interactions with thirteen other amino acid residues of the α‐glucosidase.

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/cbdv.202401141

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