α-Pinene: Docking Study, Cytotoxicity, Mechanism of Action, and Anti-Biofilm Effect against Candida albicans

Candida albicans is associated with serious infections in immunocompromised patients. Terpenes are natural-product derivatives, widely studied as antifungal alternatives. In a previous study reported by our group, the antifungal activity of α-pinene against C. albicans was verified; α-pinene present...

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Autores principales: Bomfim de Barros, Daniela, de Oliveira e Lima, Luanna, Alves da Silva, Larissa, Cavalcante Fonseca, Mariana, Ferreira, Rafael Carlos, Diniz Neto, Hermes, da Nóbrega Alves, Danielle, da Silva Rocha, Walicyranison Plinio, Scotti, Luciana, de Oliveira Lima, Edeltrudes, Vieira Sobral, Marianna, Cançado Castellano, Lúcio Roberto, Moura-Mendes, Juliana, Queiroga Sarmento Guerra, Felipe, da Silva, Márcia Vanusa
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10044001/
https://www.ncbi.nlm.nih.gov/pubmed/36978347
http://dx.doi.org/10.3390/antibiotics12030480
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author Bomfim de Barros, Daniela
de Oliveira e Lima, Luanna
Alves da Silva, Larissa
Cavalcante Fonseca, Mariana
Ferreira, Rafael Carlos
Diniz Neto, Hermes
da Nóbrega Alves, Danielle
da Silva Rocha, Walicyranison Plinio
Scotti, Luciana
de Oliveira Lima, Edeltrudes
Vieira Sobral, Marianna
Cançado Castellano, Lúcio Roberto
Moura-Mendes, Juliana
Queiroga Sarmento Guerra, Felipe
da Silva, Márcia Vanusa
author_facet Bomfim de Barros, Daniela
de Oliveira e Lima, Luanna
Alves da Silva, Larissa
Cavalcante Fonseca, Mariana
Ferreira, Rafael Carlos
Diniz Neto, Hermes
da Nóbrega Alves, Danielle
da Silva Rocha, Walicyranison Plinio
Scotti, Luciana
de Oliveira Lima, Edeltrudes
Vieira Sobral, Marianna
Cançado Castellano, Lúcio Roberto
Moura-Mendes, Juliana
Queiroga Sarmento Guerra, Felipe
da Silva, Márcia Vanusa
author_sort Bomfim de Barros, Daniela
collection PubMed
description Candida albicans is associated with serious infections in immunocompromised patients. Terpenes are natural-product derivatives, widely studied as antifungal alternatives. In a previous study reported by our group, the antifungal activity of α-pinene against C. albicans was verified; α-pinene presented an MIC between 128–512 µg/mL. In this study, we evaluate time-kill, a mechanism of action using in silico and in vitro tests, anti-biofilm activity against the Candida albicans, and toxicity against human cells (HaCaT). Results from the molecular-docking simulation demonstrated that thymidylate synthase (−52 kcal mol(−1)), and δ-14-sterol reductase (−44 kcal mol(−1)) presented the best interactions. Our in vitro results suggest that α-pinene’s antifungal activity involves binding to ergosterol in the cellular membrane. In the time-kill assay, the antifungal activity was not time-dependent, and also inhibited biofilm formation, while rupturing up to 88% of existing biofilm. It was non-cytotoxic to human keratinocytes. Our study supports α-pinene as a candidate to treat fungal infections caused by C. albicans.
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spelling pubmed-100440012023-03-29 α-Pinene: Docking Study, Cytotoxicity, Mechanism of Action, and Anti-Biofilm Effect against Candida albicans Bomfim de Barros, Daniela de Oliveira e Lima, Luanna Alves da Silva, Larissa Cavalcante Fonseca, Mariana Ferreira, Rafael Carlos Diniz Neto, Hermes da Nóbrega Alves, Danielle da Silva Rocha, Walicyranison Plinio Scotti, Luciana de Oliveira Lima, Edeltrudes Vieira Sobral, Marianna Cançado Castellano, Lúcio Roberto Moura-Mendes, Juliana Queiroga Sarmento Guerra, Felipe da Silva, Márcia Vanusa Antibiotics (Basel) Article Candida albicans is associated with serious infections in immunocompromised patients. Terpenes are natural-product derivatives, widely studied as antifungal alternatives. In a previous study reported by our group, the antifungal activity of α-pinene against C. albicans was verified; α-pinene presented an MIC between 128–512 µg/mL. In this study, we evaluate time-kill, a mechanism of action using in silico and in vitro tests, anti-biofilm activity against the Candida albicans, and toxicity against human cells (HaCaT). Results from the molecular-docking simulation demonstrated that thymidylate synthase (−52 kcal mol(−1)), and δ-14-sterol reductase (−44 kcal mol(−1)) presented the best interactions. Our in vitro results suggest that α-pinene’s antifungal activity involves binding to ergosterol in the cellular membrane. In the time-kill assay, the antifungal activity was not time-dependent, and also inhibited biofilm formation, while rupturing up to 88% of existing biofilm. It was non-cytotoxic to human keratinocytes. Our study supports α-pinene as a candidate to treat fungal infections caused by C. albicans. MDPI 2023-02-28 /pmc/articles/PMC10044001/ /pubmed/36978347 http://dx.doi.org/10.3390/antibiotics12030480 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/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 (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Bomfim de Barros, Daniela
de Oliveira e Lima, Luanna
Alves da Silva, Larissa
Cavalcante Fonseca, Mariana
Ferreira, Rafael Carlos
Diniz Neto, Hermes
da Nóbrega Alves, Danielle
da Silva Rocha, Walicyranison Plinio
Scotti, Luciana
de Oliveira Lima, Edeltrudes
Vieira Sobral, Marianna
Cançado Castellano, Lúcio Roberto
Moura-Mendes, Juliana
Queiroga Sarmento Guerra, Felipe
da Silva, Márcia Vanusa
α-Pinene: Docking Study, Cytotoxicity, Mechanism of Action, and Anti-Biofilm Effect against Candida albicans
title α-Pinene: Docking Study, Cytotoxicity, Mechanism of Action, and Anti-Biofilm Effect against Candida albicans
title_full α-Pinene: Docking Study, Cytotoxicity, Mechanism of Action, and Anti-Biofilm Effect against Candida albicans
title_fullStr α-Pinene: Docking Study, Cytotoxicity, Mechanism of Action, and Anti-Biofilm Effect against Candida albicans
title_full_unstemmed α-Pinene: Docking Study, Cytotoxicity, Mechanism of Action, and Anti-Biofilm Effect against Candida albicans
title_short α-Pinene: Docking Study, Cytotoxicity, Mechanism of Action, and Anti-Biofilm Effect against Candida albicans
title_sort α-pinene: docking study, cytotoxicity, mechanism of action, and anti-biofilm effect against candida albicans
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10044001/
https://www.ncbi.nlm.nih.gov/pubmed/36978347
http://dx.doi.org/10.3390/antibiotics12030480
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