In Silico Identification of a Potential TNF-Alpha Binder Using a Structural Similarity: A Potential Drug Repurposing Approach to the Management of Alzheimer’s Disease
Date
2024
Authors
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Journal ISSN
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Publisher
BioMed Research International
Abstract
Alzheimer’s disease (AD) is a neurodegenerative disorder with no conclusive remedy. Yohimbine, found in
Rauwolfia vomitoria may reduce brain inflammation by targeting tumour necrosis factor-alpha (TNFα), implicated in AD
pathogenesis. Metoserpate, a synthetic compound, may inhibit TNFα. The study is aimed at assessing the potential utility of
repurposing metoserpate for TNFα inhibition to reduce neuronal damage and inflammation in AD. The development of safe
and effective treatments for AD is crucial to addressing the growing burden of the disease, which is projected to double over the
next two decades. Methods. Our study repurposed an FDA-approved drug as TNFα inhibitor for AD management using
structural similarity studies, molecular docking, and molecular dynamics simulations. Yohimbine was used as a reference
compound. Molecular docking used SeeSAR, and molecular dynamics simulation used GROMACS. Results. Metoserpate was
selected from 10 compounds similar to yohimbine based on pharmacokinetic properties and FDA approval status. Molecular
Docking and simulation studies showed a stable interaction between metoserpate and TNFα over 100 ns (100000 ps). This
suggests a reliable and robust interaction between the protein and ligand, supporting the potential utility of repurposing
metoserpate for TNFα inhibition in AD treatment. Conclusion. Our study has identified metoserpate, a previously FDA-approved antihypertensive agent, as a promising candidate for inhibiting TNFα in the management of A
Description
Research Article
Keywords
Alzheimer’s Disease, Drug, Management