Ligand-Based Virtual Screening, Molecular Docking, Molecular Dynamics, and MM-PBSA Calculations towards the Identification of Potential Novel Ricin Inhibitors.

Fernanda D Botelho,Arlan Da S Gonçalves,Marcelo C Dos Santos,Martin Valis,Steven R Laplante,Kamil Kuca,Tanos C C França,Joyce S F D De Almeida

doi:10.3390/toxins12120746

Abstract

Ricin is a toxin found in the castor seeds and listed as a chemical weapon by the Chemical Weapons Convention (CWC) due to its high toxicity combined with the easiness of obtention and lack of available antidotes. The relatively frequent episodes of usage or attempting to use ricin in terrorist attacks reinforce the urge to develop an antidote for this toxin. In this sense, we selected in this work the current RTA (ricin catalytic subunit) inhibitor with the best experimental performance, as a reference molecule for virtual screening in the PubChem database. The selected molecules were then evaluated through docking studies, followed by drug-likeness investigation, molecular dynamics simulations and Molecular Mechanics Poisson–Boltzmann Surface Area (MM-PBSA) calculations. In every step, the selection of molecules was mainly based on their ability to occupy both the active and secondary sites of RTA, which are located right next to each other, but are not simultaneously occupied by the current RTA inhibitors. Results show that the three PubChem compounds 18309602, 18498053, and 136023163 presented better overall results than the reference molecule itself, showing up as new hits for the RTA inhibition, and encouraging further experimental evaluation.

Highlights

Ricin is a toxin found in the seeds of the castor plant (Ricinus communis), a widely spread plant in tropical regions and against which there are still no antidotes
It is classified as a ribosome-inactivating protein (RIP) due to its depurination role in the eukaryotic cells, which consist of the removal of a single adenine located in the universally conserved GAGA-tetraloop structure of 28S ribosomal RNA
Ricin is classified as a type 2 RIP since it is formed by two subunits, ricin toxin A (RTA) and ricin toxin B (RTB), linked by a disulfide bridge between Cys259 of RTA and Cys4 of RTB [4,5]

Summary

Introduction

Ricin is a toxin found in the seeds of the castor plant (Ricinus communis), a widely spread plant in tropical regions and against which there are still no antidotes. It is classified as a ribosome-inactivating protein (RIP) due to its depurination role in the eukaryotic cells, which consist of the removal of a single adenine located in the universally conserved GAGA-tetraloop structure of 28S ribosomal RNA (rRNA). Ricin is subjected to retrograde transport towards the endoplasmic reticulum, where RTA and RTB are separated by the enzyme disulfide isomerase [4,5]

Methods

Findings

Discussion

Conclusion