Theoretical investigations of some isolated compounds from as potential antioxidant agents and inhibitors of AGEs.

In this paper, we have attempted a theoretical calculation of some plant-isolated compounds as potential inhibitors of oxidative stress and Advanced Glycation Endproducts (AGEs). Herein, theoretical reactivity indices based on the CDFT theory were computed to explore the reactivity of five isolated products from Global reactivity indices based on HOMO and LUMO energy such as electronic chemical potential, hardness, electrophilicity and the local reactivity descriptors Parr function, molecular electrostatic potentials(MEP), electrostatic potential (ESP) and thermodynamic parameters for the studied compounds are computed and discussed using DFT method and two functionals B3LYP and CAM-B3LYP with 6-31 G(d,p) basis set. The free radical scavenging activity mechanisms (HAT, SET-PT, and SPLET) of some of the isolated products with DPPH are also presented in this work. SET-PT mechanism of the antiradical activity is found to be thermodynamically favorable. Furthermore, a molecular docking study with RAGE receptor and AtGSTF2 enzyme was conducted, in which flavonoids and show a low binding affinity with -8.42 and -10.49 kcal/mol for RAGE, -8.67 and -9.00 kcal/mol for AtGSTF2. After the encouraging outcomes from the molecular docking study, the 4-AtGSTF2 and 5-RAGE complex were subjected to 200 ns molecular dynamics simulation using Desmond, where both studied systems exhibited remarkable stability throughout the 200 ns simulations. Also, the MM-GBSA method was measured by calculating the binding free energy using the individual energy components. Finally, the ADMET predictions were assessed to anticipate the behavior of a drug candidate within the human body.