In Silico Study to Identify New Antituberculosis Molecules from Natural Sources by Hierarchical Virtual Screening and Molecular Dynamics Simulations

Tuberculosis (TB) is an infection caused by Mycobacterium tuberculosis, responsible for 1.5 million documented deaths in 2016. The increase in reported cases of M. tuberculosis resistance to the main drugs show the need for the development of new and efficient drugs for better TB control. Based on t...

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Autores principales: Pinto, Vinícius de S., Araújo, Janay S. C., Silva, Rai C., da Costa, Glauber V., Cruz, Jorddy N., De A. Neto, Moysés F., Campos, Joaquín M., Santos, Cleydson B. R., Leite, Franco H. A., Junior, Manoelito C. S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2019
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6469180/
https://www.ncbi.nlm.nih.gov/pubmed/30871010
http://dx.doi.org/10.3390/ph12010036
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author Pinto, Vinícius de S.
Araújo, Janay S. C.
Silva, Rai C.
da Costa, Glauber V.
Cruz, Jorddy N.
De A. Neto, Moysés F.
Campos, Joaquín M.
Santos, Cleydson B. R.
Leite, Franco H. A.
Junior, Manoelito C. S.
author_facet Pinto, Vinícius de S.
Araújo, Janay S. C.
Silva, Rai C.
da Costa, Glauber V.
Cruz, Jorddy N.
De A. Neto, Moysés F.
Campos, Joaquín M.
Santos, Cleydson B. R.
Leite, Franco H. A.
Junior, Manoelito C. S.
author_sort Pinto, Vinícius de S.
collection PubMed
description Tuberculosis (TB) is an infection caused by Mycobacterium tuberculosis, responsible for 1.5 million documented deaths in 2016. The increase in reported cases of M. tuberculosis resistance to the main drugs show the need for the development of new and efficient drugs for better TB control. Based on these facts, this work aimed to use combined in silico techniques for the discovery of potential inhibitors to β-ketoacyl-ACP synthase (MtKasA). Initially compounds from natural sources present in the ZINC database were selected, then filters were sequentially applied by virtual screening, initially with pharmacophoric modeling, and later the selected compounds (based on QFIT scores) were submitted to the DOCK 6.5 program. After recategorization of the variables (QFIT score and GRID score), compounds ZINC35465970 and ZINC31170017 were selected. These compounds showed great hydrophobic contributions and for each established system 100 ns of molecular dynamics simulations were performed and the binding free energy was calculated. ZINC35465970 demonstrated a greater capacity for the KasA enzyme inhibition, with a ΔG(bind) = −30.90 kcal/mol and ZINC31170017 presented a ΔG(bind) = −27.49 kcal/mol. These data can be used in other studies that aim at the inhibition of the same biological targets through drugs with a dual action.
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spelling pubmed-64691802019-04-24 In Silico Study to Identify New Antituberculosis Molecules from Natural Sources by Hierarchical Virtual Screening and Molecular Dynamics Simulations Pinto, Vinícius de S. Araújo, Janay S. C. Silva, Rai C. da Costa, Glauber V. Cruz, Jorddy N. De A. Neto, Moysés F. Campos, Joaquín M. Santos, Cleydson B. R. Leite, Franco H. A. Junior, Manoelito C. S. Pharmaceuticals (Basel) Article Tuberculosis (TB) is an infection caused by Mycobacterium tuberculosis, responsible for 1.5 million documented deaths in 2016. The increase in reported cases of M. tuberculosis resistance to the main drugs show the need for the development of new and efficient drugs for better TB control. Based on these facts, this work aimed to use combined in silico techniques for the discovery of potential inhibitors to β-ketoacyl-ACP synthase (MtKasA). Initially compounds from natural sources present in the ZINC database were selected, then filters were sequentially applied by virtual screening, initially with pharmacophoric modeling, and later the selected compounds (based on QFIT scores) were submitted to the DOCK 6.5 program. After recategorization of the variables (QFIT score and GRID score), compounds ZINC35465970 and ZINC31170017 were selected. These compounds showed great hydrophobic contributions and for each established system 100 ns of molecular dynamics simulations were performed and the binding free energy was calculated. ZINC35465970 demonstrated a greater capacity for the KasA enzyme inhibition, with a ΔG(bind) = −30.90 kcal/mol and ZINC31170017 presented a ΔG(bind) = −27.49 kcal/mol. These data can be used in other studies that aim at the inhibition of the same biological targets through drugs with a dual action. MDPI 2019-03-12 /pmc/articles/PMC6469180/ /pubmed/30871010 http://dx.doi.org/10.3390/ph12010036 Text en © 2019 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Pinto, Vinícius de S.
Araújo, Janay S. C.
Silva, Rai C.
da Costa, Glauber V.
Cruz, Jorddy N.
De A. Neto, Moysés F.
Campos, Joaquín M.
Santos, Cleydson B. R.
Leite, Franco H. A.
Junior, Manoelito C. S.
In Silico Study to Identify New Antituberculosis Molecules from Natural Sources by Hierarchical Virtual Screening and Molecular Dynamics Simulations
title In Silico Study to Identify New Antituberculosis Molecules from Natural Sources by Hierarchical Virtual Screening and Molecular Dynamics Simulations
title_full In Silico Study to Identify New Antituberculosis Molecules from Natural Sources by Hierarchical Virtual Screening and Molecular Dynamics Simulations
title_fullStr In Silico Study to Identify New Antituberculosis Molecules from Natural Sources by Hierarchical Virtual Screening and Molecular Dynamics Simulations
title_full_unstemmed In Silico Study to Identify New Antituberculosis Molecules from Natural Sources by Hierarchical Virtual Screening and Molecular Dynamics Simulations
title_short In Silico Study to Identify New Antituberculosis Molecules from Natural Sources by Hierarchical Virtual Screening and Molecular Dynamics Simulations
title_sort in silico study to identify new antituberculosis molecules from natural sources by hierarchical virtual screening and molecular dynamics simulations
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6469180/
https://www.ncbi.nlm.nih.gov/pubmed/30871010
http://dx.doi.org/10.3390/ph12010036
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