Metronidazole and Secnidazole Carbamates: Synthesis, Antiprotozoal Activity, and Molecular Dynamics Studies

We prepared a series of 10 carbamates derivatives based on two common antiprotozoal drugs: metronidazole (1–5) and secnidazole (6–10). The compounds were tested in vitro against a set of two amitochondriate protozoa: Giardia duodenalis and Trichomonas vaginalis. Compounds 1–10 showed strong antiprot...

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Autores principales: Rocha-Garduño, Genaro, Hernández-Martínez, Norma Angélica, Colín-Lozano, Blanca, Estrada-Soto, Samuel, Hernández-Núñez, Emanuel, Prieto-Martínez, Fernando Daniel, Medina-Franco, José L., Chale-Dzul, Juan Bautista, Moo-Puc, Rosa, Navarrete-Vázquez, Gabriel
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7071106/
https://www.ncbi.nlm.nih.gov/pubmed/32059495
http://dx.doi.org/10.3390/molecules25040793
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author Rocha-Garduño, Genaro
Hernández-Martínez, Norma Angélica
Colín-Lozano, Blanca
Estrada-Soto, Samuel
Hernández-Núñez, Emanuel
Prieto-Martínez, Fernando Daniel
Medina-Franco, José L.
Chale-Dzul, Juan Bautista
Moo-Puc, Rosa
Navarrete-Vázquez, Gabriel
author_facet Rocha-Garduño, Genaro
Hernández-Martínez, Norma Angélica
Colín-Lozano, Blanca
Estrada-Soto, Samuel
Hernández-Núñez, Emanuel
Prieto-Martínez, Fernando Daniel
Medina-Franco, José L.
Chale-Dzul, Juan Bautista
Moo-Puc, Rosa
Navarrete-Vázquez, Gabriel
author_sort Rocha-Garduño, Genaro
collection PubMed
description We prepared a series of 10 carbamates derivatives based on two common antiprotozoal drugs: metronidazole (1–5) and secnidazole (6–10). The compounds were tested in vitro against a set of two amitochondriate protozoa: Giardia duodenalis and Trichomonas vaginalis. Compounds 1–10 showed strong antiprotozoal activities, with potency values in the low micromolar-to-nanomolar range, being more active than their parent drugs. Metronidazole carbamate (1) was the most active of the series, with nanomolar activities against G. duodenalis (IC(50) = 460 nM) and T. vaginalis (IC(50) = 60 nM). The potency of compound 1 was 10 times greater than that of metronidazole against both parasites. None of compounds showed in vitro cytotoxicity against VERO cells tested at 100 µM. Molecular dynamics of compounds 1–10, secnidazole, and metronidazole onto the ligand binding site of pyruvate–ferredoxin oxidoreductase of T. vaginalis and the modeled β-tubulin of G. duodenalis revealed putative molecular interactions with key residues in the binding site of both proteins implicated in the mode of action of the parent drugs.
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spelling pubmed-70711062020-03-19 Metronidazole and Secnidazole Carbamates: Synthesis, Antiprotozoal Activity, and Molecular Dynamics Studies Rocha-Garduño, Genaro Hernández-Martínez, Norma Angélica Colín-Lozano, Blanca Estrada-Soto, Samuel Hernández-Núñez, Emanuel Prieto-Martínez, Fernando Daniel Medina-Franco, José L. Chale-Dzul, Juan Bautista Moo-Puc, Rosa Navarrete-Vázquez, Gabriel Molecules Article We prepared a series of 10 carbamates derivatives based on two common antiprotozoal drugs: metronidazole (1–5) and secnidazole (6–10). The compounds were tested in vitro against a set of two amitochondriate protozoa: Giardia duodenalis and Trichomonas vaginalis. Compounds 1–10 showed strong antiprotozoal activities, with potency values in the low micromolar-to-nanomolar range, being more active than their parent drugs. Metronidazole carbamate (1) was the most active of the series, with nanomolar activities against G. duodenalis (IC(50) = 460 nM) and T. vaginalis (IC(50) = 60 nM). The potency of compound 1 was 10 times greater than that of metronidazole against both parasites. None of compounds showed in vitro cytotoxicity against VERO cells tested at 100 µM. Molecular dynamics of compounds 1–10, secnidazole, and metronidazole onto the ligand binding site of pyruvate–ferredoxin oxidoreductase of T. vaginalis and the modeled β-tubulin of G. duodenalis revealed putative molecular interactions with key residues in the binding site of both proteins implicated in the mode of action of the parent drugs. MDPI 2020-02-12 /pmc/articles/PMC7071106/ /pubmed/32059495 http://dx.doi.org/10.3390/molecules25040793 Text en © 2020 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
Rocha-Garduño, Genaro
Hernández-Martínez, Norma Angélica
Colín-Lozano, Blanca
Estrada-Soto, Samuel
Hernández-Núñez, Emanuel
Prieto-Martínez, Fernando Daniel
Medina-Franco, José L.
Chale-Dzul, Juan Bautista
Moo-Puc, Rosa
Navarrete-Vázquez, Gabriel
Metronidazole and Secnidazole Carbamates: Synthesis, Antiprotozoal Activity, and Molecular Dynamics Studies
title Metronidazole and Secnidazole Carbamates: Synthesis, Antiprotozoal Activity, and Molecular Dynamics Studies
title_full Metronidazole and Secnidazole Carbamates: Synthesis, Antiprotozoal Activity, and Molecular Dynamics Studies
title_fullStr Metronidazole and Secnidazole Carbamates: Synthesis, Antiprotozoal Activity, and Molecular Dynamics Studies
title_full_unstemmed Metronidazole and Secnidazole Carbamates: Synthesis, Antiprotozoal Activity, and Molecular Dynamics Studies
title_short Metronidazole and Secnidazole Carbamates: Synthesis, Antiprotozoal Activity, and Molecular Dynamics Studies
title_sort metronidazole and secnidazole carbamates: synthesis, antiprotozoal activity, and molecular dynamics studies
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7071106/
https://www.ncbi.nlm.nih.gov/pubmed/32059495
http://dx.doi.org/10.3390/molecules25040793
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