| Autor: |
Chike-Ekwughe A; Department of Biochemistry, College of Science and Technology, Covenant University, Ota, Ogun State, Nigeria., Adegboyega AE; Department of Biochemistry, Faculty of Basic Medical Science, College of Health Sciences, University of Jos, Jos, Nigeria.; Bioinformatics Unit, Jaris Computational Biology Centre, Jos, Nigeria., Johnson TO; Department of Biochemistry, Faculty of Basic Medical Science, College of Health Sciences, University of Jos, Jos, Nigeria.; Bioinformatics Unit, Jaris Computational Biology Centre, Jos, Nigeria., Adebayo AH; Department of Biochemistry, College of Science and Technology, Covenant University, Ota, Ogun State, Nigeria., Ogunlana OO; Department of Biochemistry, College of Science and Technology, Covenant University, Ota, Ogun State, Nigeria. |
| Abstrakt: |
The anti-diabetic properties of medicinal plants are becoming more widely recognized. To identify potential anti-diabetic agents for diabetes drug discovery, the current study used in vitro and in silico approaches to assess the alpha glucosidase inhibitory activities of Tapinanthus cordifolius (TC) leaf extracts and its bioactive components respectively. In vitro alpha glucosidase inhibitory assay was carried out on TC extract and fractions at various concentrations (50-1600 µg/mL), and the compounds with alpha glucosidase inhibitory potentials were identified using molecular docking, pharmacophore modelling, and molecular dynamics simulation. The crude extract exhibited the highest activity with an IC 50 value of 248 μg/mL. Out of the 42 phytocompounds of the extract, α-Tocopherol-β-d-mannoside gave the lowest binding energy of -6.20 Kcal/mol followed by, 5-Ergosterol (-5.46 kcal/mol), Acetosyringone (-4.76 kcal/mol), and Benzaldehyde, 4-(Ethylthio)-2,5-Dimethoxy-(-4.67 kcal/mol). The selected compounds interacted with critical active site amino acid residues of alpha-glucosidase, just like the reference ligand. Molecular dynamics simulation revealed the formation of a stable complex between α-glucosidase and α-Tocopherol-β-d-mannoside, with ASP 564 sustaining two hydrogen bond connections for 99.9 and 75.0% of the simulation duration, respectively. Therefore, the selected TC compounds, especially α-Tocopherol-β-d-mannoside might be explored for future research and development as diabetic medicines.Communicated by Ramaswamy H. Sarma. |
