Litcius/Paper detail

Point-specific interactions of isovitexin with the neighboring amino acid residues of the hACE2 receptor as a targeted therapeutic agent in suppressing the SARS-CoV-2 influx mechanism

Nourin Ferdausi, Samarth Islam, Fahmida Hoque Rimti, Syeda Tasnim Quayum, Efat Muhammad Arshad, Aashian Ibnat, Tamnia Islam, Adittya Arefin, Tanzila Ismail Ema, Partha Biswas, Dipta Dey, Salauddin Al Azad

2022Journal of Advanced Veterinary and Animal Research61 citationsDOIOpen Access PDF

Abstract

Objective: studies, isovitexin exhibited a higher binding affinity against the human angiotensin converting-enzyme 2 (hACE2) receptor than existing antiviral drugs. The research aimed to find out the point specificity of isovitexin for the hACE2 receptor and to assess its therapeutic potential, depending on the stability of the isovitexin-hACE2 complex. Materials and Methods: The pharmacokinetic profile of isovitexin was analyzed. The crystal structure of the hACE2 receptor and the ligand isovitexin were docked to form a ligand-protein complex following molecular optimization. To determine the isovitexin-hACE2 complex stability, their binding affinity, hydrogen bonding, and hydrophobic interactions were studied. Lastly, the root mean square deviation (RMSD), root mean square fluctuation, solvent accessible surface area, molecular surface area, radius of gyration (Rg), polar surface area, and principal component analysis values were found by simulating the complex with molecular dynamic (MD). Results: for isovitexin was 2.56 mol/kg, with an acceptable maximum tolerated dose and no hepatotoxicity or AMES toxicity. Interactions with the amino acid residues Thr371, Asp367, Glu406, Pro346, His345, Phe274, Tyr515, Glu375, Thr347, Glu402, and His374 of the hACE2 protein were required for the high binding affinity and specificity of isovitexin. Based on what was learned from the MD simulation, the hACE2 receptor-blocking properties of isovitexin were looked at. Conclusions: Isovitexin is a phytochemical with a reasonable bioactivity and safety profile for use in humans, and it can potentially be used as a hACE2-specific therapeutic to inhibit COVID-19 infection.

Topics & Concepts

IsovitexinBiophysicsMolecular dynamicsAccessible surface areaLigand (biochemistry)ReceptorBiologyChemistryBiochemistryComputational chemistryAntioxidantVitexinFlavonoidComputational Drug Discovery MethodsSARS-CoV-2 and COVID-19 ResearchPharmacological Receptor Mechanisms and Effects