Chemogenomics identifies acetyl-coenzyme A synthetase as a target for malaria treatment and prevention

We identify the Plasmodium falciparum acetyl-coenzyme A synthetase (PfAcAS) as a druggable target, using genetic and chemical validation. In vitro evolution of resistance with two antiplasmodial drug-like compounds (MMV019721 and MMV084978) selects for mutations in PfAcAS. Metabolic profiling of com...

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Autores principales: Summers, Robert L., Pasaje, Charisse Flerida A., Pisco, Joao P., Striepen, Josefine, Luth, Madeline R., Kumpornsin, Krittikorn, Carpenter, Emma F., Munro, Justin T., Lin, De, Plater, Andrew, Punekar, Avinash S., Shepherd, Andrew M., Shepherd, Sharon M., Vanaerschot, Manu, Murithi, James M., Rubiano, Kelly, Akidil, Aslı, Ottilie, Sabine, Mittal, Nimisha, Dilmore, A. Hazel, Won, Madalyn, Mandt, Rebecca E.K., McGowen, Kerry, Owen, Edward, Walpole, Chris, Llinás, Manuel, Lee, Marcus C.S., Winzeler, Elizabeth A., Fidock, David A., Gilbert, Ian H., Wirth, Dyann F., Niles, Jacquin C., Baragaña, Beatriz, Lukens, Amanda K.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8878317/
https://www.ncbi.nlm.nih.gov/pubmed/34348113
http://dx.doi.org/10.1016/j.chembiol.2021.07.010
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author Summers, Robert L.
Pasaje, Charisse Flerida A.
Pisco, Joao P.
Striepen, Josefine
Luth, Madeline R.
Kumpornsin, Krittikorn
Carpenter, Emma F.
Munro, Justin T.
Lin, De
Plater, Andrew
Punekar, Avinash S.
Shepherd, Andrew M.
Shepherd, Sharon M.
Vanaerschot, Manu
Murithi, James M.
Rubiano, Kelly
Akidil, Aslı
Ottilie, Sabine
Mittal, Nimisha
Dilmore, A. Hazel
Won, Madalyn
Mandt, Rebecca E.K.
McGowen, Kerry
Owen, Edward
Walpole, Chris
Llinás, Manuel
Lee, Marcus C.S.
Winzeler, Elizabeth A.
Fidock, David A.
Gilbert, Ian H.
Wirth, Dyann F.
Niles, Jacquin C.
Baragaña, Beatriz
Lukens, Amanda K.
author_facet Summers, Robert L.
Pasaje, Charisse Flerida A.
Pisco, Joao P.
Striepen, Josefine
Luth, Madeline R.
Kumpornsin, Krittikorn
Carpenter, Emma F.
Munro, Justin T.
Lin, De
Plater, Andrew
Punekar, Avinash S.
Shepherd, Andrew M.
Shepherd, Sharon M.
Vanaerschot, Manu
Murithi, James M.
Rubiano, Kelly
Akidil, Aslı
Ottilie, Sabine
Mittal, Nimisha
Dilmore, A. Hazel
Won, Madalyn
Mandt, Rebecca E.K.
McGowen, Kerry
Owen, Edward
Walpole, Chris
Llinás, Manuel
Lee, Marcus C.S.
Winzeler, Elizabeth A.
Fidock, David A.
Gilbert, Ian H.
Wirth, Dyann F.
Niles, Jacquin C.
Baragaña, Beatriz
Lukens, Amanda K.
author_sort Summers, Robert L.
collection PubMed
description We identify the Plasmodium falciparum acetyl-coenzyme A synthetase (PfAcAS) as a druggable target, using genetic and chemical validation. In vitro evolution of resistance with two antiplasmodial drug-like compounds (MMV019721 and MMV084978) selects for mutations in PfAcAS. Metabolic profiling of compound-treated parasites reveals changes in acetyl-CoA levels for both compounds. Genome editing confirms that mutations in PfAcAS are sufficient to confer resistance. Knockdown studies demonstrate that PfAcAS is essential for asexual growth, and partial knockdown induces hypersensitivity to both compounds. In vitro biochemical assays using recombinantly expressed PfAcAS validates that MMV019721 and MMV084978 directly inhibit the enzyme by preventing CoA and acetate binding, respectively. Immunolocalization studies reveal that PfAcAS is primarily localized to the nucleus. Functional studies demonstrate inhibition of histone acetylation in compound-treated wild-type, but not in resistant parasites. Our findings identify and validate PfAcAS as an essential, druggable target involved in the epigenetic regulation of gene expression.
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spelling pubmed-88783172022-03-01 Chemogenomics identifies acetyl-coenzyme A synthetase as a target for malaria treatment and prevention Summers, Robert L. Pasaje, Charisse Flerida A. Pisco, Joao P. Striepen, Josefine Luth, Madeline R. Kumpornsin, Krittikorn Carpenter, Emma F. Munro, Justin T. Lin, De Plater, Andrew Punekar, Avinash S. Shepherd, Andrew M. Shepherd, Sharon M. Vanaerschot, Manu Murithi, James M. Rubiano, Kelly Akidil, Aslı Ottilie, Sabine Mittal, Nimisha Dilmore, A. Hazel Won, Madalyn Mandt, Rebecca E.K. McGowen, Kerry Owen, Edward Walpole, Chris Llinás, Manuel Lee, Marcus C.S. Winzeler, Elizabeth A. Fidock, David A. Gilbert, Ian H. Wirth, Dyann F. Niles, Jacquin C. Baragaña, Beatriz Lukens, Amanda K. Cell Chem Biol Article We identify the Plasmodium falciparum acetyl-coenzyme A synthetase (PfAcAS) as a druggable target, using genetic and chemical validation. In vitro evolution of resistance with two antiplasmodial drug-like compounds (MMV019721 and MMV084978) selects for mutations in PfAcAS. Metabolic profiling of compound-treated parasites reveals changes in acetyl-CoA levels for both compounds. Genome editing confirms that mutations in PfAcAS are sufficient to confer resistance. Knockdown studies demonstrate that PfAcAS is essential for asexual growth, and partial knockdown induces hypersensitivity to both compounds. In vitro biochemical assays using recombinantly expressed PfAcAS validates that MMV019721 and MMV084978 directly inhibit the enzyme by preventing CoA and acetate binding, respectively. Immunolocalization studies reveal that PfAcAS is primarily localized to the nucleus. Functional studies demonstrate inhibition of histone acetylation in compound-treated wild-type, but not in resistant parasites. Our findings identify and validate PfAcAS as an essential, druggable target involved in the epigenetic regulation of gene expression. Cell Press 2022-02-17 /pmc/articles/PMC8878317/ /pubmed/34348113 http://dx.doi.org/10.1016/j.chembiol.2021.07.010 Text en © 2021 The Authors https://creativecommons.org/licenses/by/4.0/This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Summers, Robert L.
Pasaje, Charisse Flerida A.
Pisco, Joao P.
Striepen, Josefine
Luth, Madeline R.
Kumpornsin, Krittikorn
Carpenter, Emma F.
Munro, Justin T.
Lin, De
Plater, Andrew
Punekar, Avinash S.
Shepherd, Andrew M.
Shepherd, Sharon M.
Vanaerschot, Manu
Murithi, James M.
Rubiano, Kelly
Akidil, Aslı
Ottilie, Sabine
Mittal, Nimisha
Dilmore, A. Hazel
Won, Madalyn
Mandt, Rebecca E.K.
McGowen, Kerry
Owen, Edward
Walpole, Chris
Llinás, Manuel
Lee, Marcus C.S.
Winzeler, Elizabeth A.
Fidock, David A.
Gilbert, Ian H.
Wirth, Dyann F.
Niles, Jacquin C.
Baragaña, Beatriz
Lukens, Amanda K.
Chemogenomics identifies acetyl-coenzyme A synthetase as a target for malaria treatment and prevention
title Chemogenomics identifies acetyl-coenzyme A synthetase as a target for malaria treatment and prevention
title_full Chemogenomics identifies acetyl-coenzyme A synthetase as a target for malaria treatment and prevention
title_fullStr Chemogenomics identifies acetyl-coenzyme A synthetase as a target for malaria treatment and prevention
title_full_unstemmed Chemogenomics identifies acetyl-coenzyme A synthetase as a target for malaria treatment and prevention
title_short Chemogenomics identifies acetyl-coenzyme A synthetase as a target for malaria treatment and prevention
title_sort chemogenomics identifies acetyl-coenzyme a synthetase as a target for malaria treatment and prevention
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8878317/
https://www.ncbi.nlm.nih.gov/pubmed/34348113
http://dx.doi.org/10.1016/j.chembiol.2021.07.010
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