Decoding iNOS Inhibition: A Computational Voyage of Tavaborole Toward Restoring Endothelial Homeostasis in Venous Leg Ulcers
Naveen Kumar Velayutham, Chitra Vellapandian, Himanshu Paliwal, Suhaskumar Patel, Bhupendra G. Prajapati

TL;DR
This study uses computational methods to explore how tavaborole, an antifungal drug, might inhibit iNOS and help heal chronic venous leg ulcers by reducing harmful nitric oxide.
Contribution
The paper introduces a novel computational strategy to evaluate tavaborole as a potential iNOS inhibitor for treating venous leg ulcers.
Findings
Tavaborole binds favorably to the catalytic domain of iNOS with key residue interactions.
Molecular dynamics simulations showed stable iNOS-tavaborole complexes with minimal structural deviations.
MM-PBSA analysis confirmed energetically favorable binding, similar to known iNOS inhibitors.
Abstract
Background: Due to chronic venous insufficiency, venous leg ulcers (VLUs) develop as chronic wounds characterized by impaired healing, persistent inflammation, and endothelial dysfunction. Nitrosative stress, mitochondrial damage, and tissue apoptosis caused by excess nitric oxide (NO) produced by iNOS in macrophages and fibroblasts are contributing factors in the chronic wound environment; therefore, pharmacological modulation of iNOS presents an attractive mechanistic target in chronic wound pathophysiology. Methods: Herein, we present the use of a structure-based computational strategy to assess the inhibition of tavaborole, a boron-based antifungal agent, against iNOS using human iNOS crystal structure (PDB ID: iNOS) by molecular docking using AutoDock 4.2, 500 ns simulation of molecular dynamics (MD), with equilibration within ~50 ns and analyses over full trajectory and binding…
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Taxonomy
TopicsWound Healing and Treatments · Hemoglobin structure and function · Nitric Oxide and Endothelin Effects
