Litcius/Paper detail

AI-driven drug repurposing and binding pose meta dynamics identifies novel targets for monkeypox virus

Chirag Patel, Raghvendra Mall, Halima Bensmail

2023Journal of Infection and Public Health41 citationsDOIOpen Access PDF

Abstract

Monkeypox virus (MPXV) was confirmed in May 2022 and designated a global health emergency by WHO in July 2022. MPX virions are big, enclosed, brick-shaped, and contain a linear, double-stranded DNA genome as well as enzymes. MPXV particles bind to the host cell membrane via a variety of viral-host protein interactions. As a result, the wrapped structure is a potential therapeutic target. DeepRepurpose, an artificial intelligence-based compound-viral proteins interaction framework, was used via a transfer learning setting to prioritize a set of FDA approved and investigational drugs which can potentially inhibit MPXV viral proteins. To filter and narrow down the lead compounds from curated collections of pharmaceutical compounds, we used a rigorous computational framework that included homology modeling, molecular docking, dynamic simulations, binding free energy calculations, and binding pose metadynamics. We identified Elvitegravir as a potential inhibitor of MPXV virus using our comprehensive pipeline.

Topics & Concepts

Computational biologyMonkeypoxRepurposingDocking (animal)Drug discoveryVirologyBiologyChemistryBiochemistryGeneMedicineNursingRecombinant DNAEcologyVacciniaPoxvirus research and outbreaksBacteriophages and microbial interactionsPlant Virus Research Studies