Identification of potential oligo‐1,6‐glucosidase inhibitors in <i>Distichochlamys citrea</i> M.F. Newman essential oil-Reference-Cited by-同舟云学术

Identification of potential oligo‐1,6‐glucosidase inhibitors in Distichochlamys citrea M.F. Newman essential oil

Published:2023-09-19 Issue:6 Volume:61 Page:788-807
ISSN:2572-8288
Container-title:Vietnam Journal of Chemistry
language:en
Short-container-title:Vietnam Journal of Chemistry

Author:

Bui Thanh Q.¹^ORCID,Hai Nguyen Thi Thanh¹,My Tran Thi Ai¹,Phu Nguyen Vinh²,Quy Phan Tu³^ORCID,Triet Nguyen Thanh⁴,Van Chen Tran⁴^ORCID,Pham Duy Toan⁵,De Tran Van⁶,Dat Ton That Huu⁷^ORCID,Nhung Nguyen Thi Ai¹^ORCID

Affiliation:

1. Department of Chemistry, University of Sciences Hue University 77 Nguyen Hue Hue City 53000 Viet Nam

2. Faculty of Basic Sciences, University of Medicine and Pharmacy Hue University 6 Ngo Quyen Hue 53000 Viet Nam

3. Department of Natural Sciences & Technology Tay Nguyen University 567 Le Duan, Ea Tam, Buon Ma Thuot Dak Lak 63000 Viet Nam

4. Faculty of Traditional Medicine University of Medicine and Pharmacy at Ho Chi Minh City 217 Hong Bang, Ward 11, District 5 Ho Chi Minh City 70000 Viet Nam

5. Department of Chemistry, College of Natural Sciences Can Tho University Campus II, 3/2 Street Can Tho 90000 Viet Nam

6. Department of Health Organization and Management Can Tho University of Medicine and Pharmacy 179 Nguyen Van Cu Can Tho 90000 Viet Nam

7. Mientrung Institute for Scientific Research, Vietnam National Museum of Nature Vietnam Academy of Science and Technology (VAST) 321 Huynh Thuc Khang Hue 53000 Viet Nam

Abstract

AbstractDistichochlamys citrea M.F. Newman, a genus endemic to Vietnam, has been known by folk experiences for its biological potential, including antidiabetics. The essential oil was extracted and characterized by gas chromatography‐mass spectrometry for compositional specificity. The data was used as input for computational predictions. Gas chromatography‐mass spectrometry analysis revealed the presence of 23 natural components in the essential oil (C1‐C23); major constituents: α‐citral (C16; 21.19%), cineole (C7; 16.11%), β‐citral (C14; 16.03%), geranyl acetate (C20; 15.97%), geraniol (C15; 10.74%). Density functional theory calculation suggests C14 and C15 highly promising for intermolecular interactions by on their electronic configurations. Molecular docking simulation predicts the most effective inhibitors against PDB‐3AJ7 (oligo‐1,6‐glucosidase) into the order of ligand‐protein complexes: C15‐3AJ7 (DS ‐11.9 kcal.mol‐1) ≈ C14‐3AJ7 (DS ‐11.8 kcal.mol‐1) > C12‐3AJ7 (DS ‐11.5 kcal.mol‐1) > C11‐3AJ7 (DS ‐11.2 kcal.mol‐1) > C9‐3AJ7 (DS ‐11.0 kcal.mol‐1). All the components are expected to be biocompatible (by QSARIS physical properties) and safe for medicinal use (by ADMET pharmacokinetics and pharmacology). Altogether, the results encourage further consideration of D. citrea M.F. Newman essential oil for further wet antidiabetic tests, especially the specification on C14 (aka. β‐Citral) and C15 (aka. Geraniol).

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/vjch.202300155

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