Violacein-Induced Chaperone System Collapse Underlies Multistage Antiplasmodial Activity

[Image: see text] Antimalarial drugs with novel modes of action and wide therapeutic potential are needed to pave the way for malaria eradication. Violacein is a natural compound known for its biological activity against cancer cells and several pathogens, including the malaria parasite, Plasmodium...

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Autores principales: Tavella, Tatyana Almeida, da Silva, Noeli Soares Melo, Spillman, Natalie, Kayano, Ana Carolina Andrade Vitor, Cassiano, Gustavo Capatti, Vasconcelos, Adrielle Ayumi, Camargo, Antônio Pedro, da Silva, Djane Clarys Baia, Fontinha, Diana, Salazar Alvarez, Luis Carlos, Ferreira, Letícia Tiburcio, Peralis Tomaz, Kaira Cristina, Neves, Bruno Junior, Almeida, Ludimila Dias, Bargieri, Daniel Youssef, Lacerda, Marcus Vinicius Guimarães de, Lemos Cravo, Pedro Vitor, Sunnerhagen, Per, Prudêncio, Miguel, Andrade, Carolina Horta, Pinto Lopes, Stefanie Costa, Carazzolle, Marcelo Falsarella, Tilley, Leann, Bilsland, Elizabeth, Borges, Júlio César, Maranhão Costa, Fabio Trindade
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2021
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8042658/
https://www.ncbi.nlm.nih.gov/pubmed/33689276
http://dx.doi.org/10.1021/acsinfecdis.0c00454
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author Tavella, Tatyana Almeida
da Silva, Noeli Soares Melo
Spillman, Natalie
Kayano, Ana Carolina Andrade Vitor
Cassiano, Gustavo Capatti
Vasconcelos, Adrielle Ayumi
Camargo, Antônio Pedro
da Silva, Djane Clarys Baia
Fontinha, Diana
Salazar Alvarez, Luis Carlos
Ferreira, Letícia Tiburcio
Peralis Tomaz, Kaira Cristina
Neves, Bruno Junior
Almeida, Ludimila Dias
Bargieri, Daniel Youssef
Lacerda, Marcus Vinicius Guimarães de
Lemos Cravo, Pedro Vitor
Sunnerhagen, Per
Prudêncio, Miguel
Andrade, Carolina Horta
Pinto Lopes, Stefanie Costa
Carazzolle, Marcelo Falsarella
Tilley, Leann
Bilsland, Elizabeth
Borges, Júlio César
Maranhão Costa, Fabio Trindade
author_facet Tavella, Tatyana Almeida
da Silva, Noeli Soares Melo
Spillman, Natalie
Kayano, Ana Carolina Andrade Vitor
Cassiano, Gustavo Capatti
Vasconcelos, Adrielle Ayumi
Camargo, Antônio Pedro
da Silva, Djane Clarys Baia
Fontinha, Diana
Salazar Alvarez, Luis Carlos
Ferreira, Letícia Tiburcio
Peralis Tomaz, Kaira Cristina
Neves, Bruno Junior
Almeida, Ludimila Dias
Bargieri, Daniel Youssef
Lacerda, Marcus Vinicius Guimarães de
Lemos Cravo, Pedro Vitor
Sunnerhagen, Per
Prudêncio, Miguel
Andrade, Carolina Horta
Pinto Lopes, Stefanie Costa
Carazzolle, Marcelo Falsarella
Tilley, Leann
Bilsland, Elizabeth
Borges, Júlio César
Maranhão Costa, Fabio Trindade
author_sort Tavella, Tatyana Almeida
collection PubMed
description [Image: see text] Antimalarial drugs with novel modes of action and wide therapeutic potential are needed to pave the way for malaria eradication. Violacein is a natural compound known for its biological activity against cancer cells and several pathogens, including the malaria parasite, Plasmodium falciparum (Pf). Herein, using chemical genomic profiling (CGP), we found that violacein affects protein homeostasis. Mechanistically, violacein binds Pf chaperones, PfHsp90 and PfHsp70-1, compromising the latter’s ATPase and chaperone activities. Additionally, violacein-treated parasites exhibited increased protein unfolding and proteasomal degradation. The uncoupling of the parasite stress response reflects the multistage growth inhibitory effect promoted by violacein. Despite evidence of proteotoxic stress, violacein did not inhibit global protein synthesis via UPR activation—a process that is highly dependent on chaperones, in agreement with the notion of a violacein-induced proteostasis collapse. Our data highlight the importance of a functioning chaperone–proteasome system for parasite development and differentiation. Thus, a violacein-like small molecule might provide a good scaffold for development of a novel probe for examining the molecular chaperone network and/or antiplasmodial drug design.
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spelling pubmed-80426582021-04-14 Violacein-Induced Chaperone System Collapse Underlies Multistage Antiplasmodial Activity Tavella, Tatyana Almeida da Silva, Noeli Soares Melo Spillman, Natalie Kayano, Ana Carolina Andrade Vitor Cassiano, Gustavo Capatti Vasconcelos, Adrielle Ayumi Camargo, Antônio Pedro da Silva, Djane Clarys Baia Fontinha, Diana Salazar Alvarez, Luis Carlos Ferreira, Letícia Tiburcio Peralis Tomaz, Kaira Cristina Neves, Bruno Junior Almeida, Ludimila Dias Bargieri, Daniel Youssef Lacerda, Marcus Vinicius Guimarães de Lemos Cravo, Pedro Vitor Sunnerhagen, Per Prudêncio, Miguel Andrade, Carolina Horta Pinto Lopes, Stefanie Costa Carazzolle, Marcelo Falsarella Tilley, Leann Bilsland, Elizabeth Borges, Júlio César Maranhão Costa, Fabio Trindade ACS Infect Dis [Image: see text] Antimalarial drugs with novel modes of action and wide therapeutic potential are needed to pave the way for malaria eradication. Violacein is a natural compound known for its biological activity against cancer cells and several pathogens, including the malaria parasite, Plasmodium falciparum (Pf). Herein, using chemical genomic profiling (CGP), we found that violacein affects protein homeostasis. Mechanistically, violacein binds Pf chaperones, PfHsp90 and PfHsp70-1, compromising the latter’s ATPase and chaperone activities. Additionally, violacein-treated parasites exhibited increased protein unfolding and proteasomal degradation. The uncoupling of the parasite stress response reflects the multistage growth inhibitory effect promoted by violacein. Despite evidence of proteotoxic stress, violacein did not inhibit global protein synthesis via UPR activation—a process that is highly dependent on chaperones, in agreement with the notion of a violacein-induced proteostasis collapse. Our data highlight the importance of a functioning chaperone–proteasome system for parasite development and differentiation. Thus, a violacein-like small molecule might provide a good scaffold for development of a novel probe for examining the molecular chaperone network and/or antiplasmodial drug design. American Chemical Society 2021-03-10 2021-04-09 /pmc/articles/PMC8042658/ /pubmed/33689276 http://dx.doi.org/10.1021/acsinfecdis.0c00454 Text en © 2021 American Chemical Society https://creativecommons.org/licenses/by-nc-nd/4.0/Permits non-commercial access and re-use, provided that author attribution and integrity are maintained; but does not permit creation of adaptations or other derivative works (https://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Tavella, Tatyana Almeida
da Silva, Noeli Soares Melo
Spillman, Natalie
Kayano, Ana Carolina Andrade Vitor
Cassiano, Gustavo Capatti
Vasconcelos, Adrielle Ayumi
Camargo, Antônio Pedro
da Silva, Djane Clarys Baia
Fontinha, Diana
Salazar Alvarez, Luis Carlos
Ferreira, Letícia Tiburcio
Peralis Tomaz, Kaira Cristina
Neves, Bruno Junior
Almeida, Ludimila Dias
Bargieri, Daniel Youssef
Lacerda, Marcus Vinicius Guimarães de
Lemos Cravo, Pedro Vitor
Sunnerhagen, Per
Prudêncio, Miguel
Andrade, Carolina Horta
Pinto Lopes, Stefanie Costa
Carazzolle, Marcelo Falsarella
Tilley, Leann
Bilsland, Elizabeth
Borges, Júlio César
Maranhão Costa, Fabio Trindade
Violacein-Induced Chaperone System Collapse Underlies Multistage Antiplasmodial Activity
title Violacein-Induced Chaperone System Collapse Underlies Multistage Antiplasmodial Activity
title_full Violacein-Induced Chaperone System Collapse Underlies Multistage Antiplasmodial Activity
title_fullStr Violacein-Induced Chaperone System Collapse Underlies Multistage Antiplasmodial Activity
title_full_unstemmed Violacein-Induced Chaperone System Collapse Underlies Multistage Antiplasmodial Activity
title_short Violacein-Induced Chaperone System Collapse Underlies Multistage Antiplasmodial Activity
title_sort violacein-induced chaperone system collapse underlies multistage antiplasmodial activity
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8042658/
https://www.ncbi.nlm.nih.gov/pubmed/33689276
http://dx.doi.org/10.1021/acsinfecdis.0c00454
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