Identification of Sirtuin 1-Targeted Anti-Alzheimer Agents Using Structure-Based Drug Design and Multi-Database Screening

Abstract

Sirtuin 1 (Sirt1) is a critical enzyme involved in cellular stress responses and neuroprotection, making it a significant target in Alzheimer's disease (AD) research. Dysregulation of Sirt1 contributes to amyloid-beta accumulation, tau hyperphosphorylation, and neuroinflammation—hallmarks of AD pathology. Structure-based drug design (SBDD) aims to develop small molecules that enhance Sirt1 activity, offering a novel therapeutic approach. By targeting Sirt1, these molecules can potentially mitigate AD progression, providing a promising strategy for developing effective treatments. In this present work, a pharmacophore containing six features was designed using the Sirt1 macromolecule crystal structure using the Discovery Studio 2.0 software and validated by the Gunery-Henery (GH) Scoring method. The GH scores were found in the acceptable range. Further validated pharmacophores were used for exploring the plant-derived database to retrieve the novel hits employing various parameters viz fit value, Lipinski rule of five violation, feature mapping, in-silico pharmacokinetics and toxicological studies. After the virtual screening process, 24-24 molecules from the ZINC and FDA-approved database were retrieved which were further subjected to molecular docking to determine the binding interactions with the Sirt1 enzyme's active binding sites using the LibDock module in DS 2.0 software. Based on binding energy and binding interactions 2-2 molecules from the ZINC database and FDA-approved database were selected for the molecular dynamic simulation. The knowledge obtained in this study may help reveal commercially available compounds that can become potent activators of Sirt1.