Lysyl-tRNA synthetase as a drug target in malaria and cryptosporidiosis

Malaria and cryptosporidiosis, caused by apicomplexan parasites, remain major drivers of global child mortality. New drugs for the treatment of malaria and cryptosporidiosis, in particular, are of high priority; however, there are few chemically validated targets. The natural product cladosporin is...

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Autores principales: Baragaña, Beatriz, Forte, Barbara, Choi, Ryan, Nakazawa Hewitt, Stephen, Bueren-Calabuig, Juan A., Pisco, João Pedro, Peet, Caroline, Dranow, David M., Robinson, David A., Jansen, Chimed, Norcross, Neil R., Vinayak, Sumiti, Anderson, Mark, Brooks, Carrie F., Cooper, Caitlin A., Damerow, Sebastian, Delves, Michael, Dowers, Karen, Duffy, James, Edwards, Thomas E., Hallyburton, Irene, Horst, Benjamin G., Hulverson, Matthew A., Ferguson, Liam, Jiménez-Díaz, María Belén, Jumani, Rajiv S., Lorimer, Donald D., Love, Melissa S., Maher, Steven, Matthews, Holly, McNamara, Case W., Miller, Peter, O’Neill, Sandra, Ojo, Kayode K., Osuna-Cabello, Maria, Pinto, Erika, Post, John, Riley, Jennifer, Rottmann, Matthias, Sanz, Laura M., Scullion, Paul, Sharma, Arvind, Shepherd, Sharon M., Shishikura, Yoko, Simeons, Frederick R. C., Stebbins, Erin E., Stojanovski, Laste, Straschil, Ursula, Tamaki, Fabio K., Tamjar, Jevgenia, Torrie, Leah S., Vantaux, Amélie, Witkowski, Benoît, Wittlin, Sergio, Yogavel, Manickam, Zuccotto, Fabio, Angulo-Barturen, Iñigo, Sinden, Robert, Baum, Jake, Gamo, Francisco-Javier, Mäser, Pascal, Kyle, Dennis E., Winzeler, Elizabeth A., Myler, Peter J., Wyatt, Paul G., Floyd, David, Matthews, David, Sharma, Amit, Striepen, Boris, Huston, Christopher D., Gray, David W., Fairlamb, Alan H., Pisliakov, Andrei V., Walpole, Chris, Read, Kevin D., Van Voorhis, Wesley C., Gilbert, Ian H.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2019
Materias:
Biological Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6452685/
https://www.ncbi.nlm.nih.gov/pubmed/30894487
http://dx.doi.org/10.1073/pnas.1814685116
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author Baragaña, Beatriz
Forte, Barbara
Choi, Ryan
Nakazawa Hewitt, Stephen
Bueren-Calabuig, Juan A.
Pisco, João Pedro
Peet, Caroline
Dranow, David M.
Robinson, David A.
Jansen, Chimed
Norcross, Neil R.
Vinayak, Sumiti
Anderson, Mark
Brooks, Carrie F.
Cooper, Caitlin A.
Damerow, Sebastian
Delves, Michael
Dowers, Karen
Duffy, James
Edwards, Thomas E.
Hallyburton, Irene
Horst, Benjamin G.
Hulverson, Matthew A.
Ferguson, Liam
Jiménez-Díaz, María Belén
Jumani, Rajiv S.
Lorimer, Donald D.
Love, Melissa S.
Maher, Steven
Matthews, Holly
McNamara, Case W.
Miller, Peter
O’Neill, Sandra
Ojo, Kayode K.
Osuna-Cabello, Maria
Pinto, Erika
Post, John
Riley, Jennifer
Rottmann, Matthias
Sanz, Laura M.
Scullion, Paul
Sharma, Arvind
Shepherd, Sharon M.
Shishikura, Yoko
Simeons, Frederick R. C.
Stebbins, Erin E.
Stojanovski, Laste
Straschil, Ursula
Tamaki, Fabio K.
Tamjar, Jevgenia
Torrie, Leah S.
Vantaux, Amélie
Witkowski, Benoît
Wittlin, Sergio
Yogavel, Manickam
Zuccotto, Fabio
Angulo-Barturen, Iñigo
Sinden, Robert
Baum, Jake
Gamo, Francisco-Javier
Mäser, Pascal
Kyle, Dennis E.
Winzeler, Elizabeth A.
Myler, Peter J.
Wyatt, Paul G.
Floyd, David
Matthews, David
Sharma, Amit
Striepen, Boris
Huston, Christopher D.
Gray, David W.
Fairlamb, Alan H.
Pisliakov, Andrei V.
Walpole, Chris
Read, Kevin D.
Van Voorhis, Wesley C.
Gilbert, Ian H.
author_facet Baragaña, Beatriz
Forte, Barbara
Choi, Ryan
Nakazawa Hewitt, Stephen
Bueren-Calabuig, Juan A.
Pisco, João Pedro
Peet, Caroline
Dranow, David M.
Robinson, David A.
Jansen, Chimed
Norcross, Neil R.
Vinayak, Sumiti
Anderson, Mark
Brooks, Carrie F.
Cooper, Caitlin A.
Damerow, Sebastian
Delves, Michael
Dowers, Karen
Duffy, James
Edwards, Thomas E.
Hallyburton, Irene
Horst, Benjamin G.
Hulverson, Matthew A.
Ferguson, Liam
Jiménez-Díaz, María Belén
Jumani, Rajiv S.
Lorimer, Donald D.
Love, Melissa S.
Maher, Steven
Matthews, Holly
McNamara, Case W.
Miller, Peter
O’Neill, Sandra
Ojo, Kayode K.
Osuna-Cabello, Maria
Pinto, Erika
Post, John
Riley, Jennifer
Rottmann, Matthias
Sanz, Laura M.
Scullion, Paul
Sharma, Arvind
Shepherd, Sharon M.
Shishikura, Yoko
Simeons, Frederick R. C.
Stebbins, Erin E.
Stojanovski, Laste
Straschil, Ursula
Tamaki, Fabio K.
Tamjar, Jevgenia
Torrie, Leah S.
Vantaux, Amélie
Witkowski, Benoît
Wittlin, Sergio
Yogavel, Manickam
Zuccotto, Fabio
Angulo-Barturen, Iñigo
Sinden, Robert
Baum, Jake
Gamo, Francisco-Javier
Mäser, Pascal
Kyle, Dennis E.
Winzeler, Elizabeth A.
Myler, Peter J.
Wyatt, Paul G.
Floyd, David
Matthews, David
Sharma, Amit
Striepen, Boris
Huston, Christopher D.
Gray, David W.
Fairlamb, Alan H.
Pisliakov, Andrei V.
Walpole, Chris
Read, Kevin D.
Van Voorhis, Wesley C.
Gilbert, Ian H.
author_sort Baragaña, Beatriz
collection PubMed
description Malaria and cryptosporidiosis, caused by apicomplexan parasites, remain major drivers of global child mortality. New drugs for the treatment of malaria and cryptosporidiosis, in particular, are of high priority; however, there are few chemically validated targets. The natural product cladosporin is active against blood- and liver-stage Plasmodium falciparum and Cryptosporidium parvum in cell-culture studies. Target deconvolution in P. falciparum has shown that cladosporin inhibits lysyl-tRNA synthetase (PfKRS1). Here, we report the identification of a series of selective inhibitors of apicomplexan KRSs. Following a biochemical screen, a small-molecule hit was identified and then optimized by using a structure-based approach, supported by structures of both PfKRS1 and C. parvum KRS (CpKRS). In vivo proof of concept was established in an SCID mouse model of malaria, after oral administration (ED(90) = 1.5 mg/kg, once a day for 4 d). Furthermore, we successfully identified an opportunity for pathogen hopping based on the structural homology between PfKRS1 and CpKRS. This series of compounds inhibit CpKRS and C. parvum and Cryptosporidium hominis in culture, and our lead compound shows oral efficacy in two cryptosporidiosis mouse models. X-ray crystallography and molecular dynamics simulations have provided a model to rationalize the selectivity of our compounds for PfKRS1 and CpKRS vs. (human) HsKRS. Our work validates apicomplexan KRSs as promising targets for the development of drugs for malaria and cryptosporidiosis.
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spelling pubmed-64526852019-04-11 Lysyl-tRNA synthetase as a drug target in malaria and cryptosporidiosis Baragaña, Beatriz Forte, Barbara Choi, Ryan Nakazawa Hewitt, Stephen Bueren-Calabuig, Juan A. Pisco, João Pedro Peet, Caroline Dranow, David M. Robinson, David A. Jansen, Chimed Norcross, Neil R. Vinayak, Sumiti Anderson, Mark Brooks, Carrie F. Cooper, Caitlin A. Damerow, Sebastian Delves, Michael Dowers, Karen Duffy, James Edwards, Thomas E. Hallyburton, Irene Horst, Benjamin G. Hulverson, Matthew A. Ferguson, Liam Jiménez-Díaz, María Belén Jumani, Rajiv S. Lorimer, Donald D. Love, Melissa S. Maher, Steven Matthews, Holly McNamara, Case W. Miller, Peter O’Neill, Sandra Ojo, Kayode K. Osuna-Cabello, Maria Pinto, Erika Post, John Riley, Jennifer Rottmann, Matthias Sanz, Laura M. Scullion, Paul Sharma, Arvind Shepherd, Sharon M. Shishikura, Yoko Simeons, Frederick R. C. Stebbins, Erin E. Stojanovski, Laste Straschil, Ursula Tamaki, Fabio K. Tamjar, Jevgenia Torrie, Leah S. Vantaux, Amélie Witkowski, Benoît Wittlin, Sergio Yogavel, Manickam Zuccotto, Fabio Angulo-Barturen, Iñigo Sinden, Robert Baum, Jake Gamo, Francisco-Javier Mäser, Pascal Kyle, Dennis E. Winzeler, Elizabeth A. Myler, Peter J. Wyatt, Paul G. Floyd, David Matthews, David Sharma, Amit Striepen, Boris Huston, Christopher D. Gray, David W. Fairlamb, Alan H. Pisliakov, Andrei V. Walpole, Chris Read, Kevin D. Van Voorhis, Wesley C. Gilbert, Ian H. Proc Natl Acad Sci U S A Biological Sciences Malaria and cryptosporidiosis, caused by apicomplexan parasites, remain major drivers of global child mortality. New drugs for the treatment of malaria and cryptosporidiosis, in particular, are of high priority; however, there are few chemically validated targets. The natural product cladosporin is active against blood- and liver-stage Plasmodium falciparum and Cryptosporidium parvum in cell-culture studies. Target deconvolution in P. falciparum has shown that cladosporin inhibits lysyl-tRNA synthetase (PfKRS1). Here, we report the identification of a series of selective inhibitors of apicomplexan KRSs. Following a biochemical screen, a small-molecule hit was identified and then optimized by using a structure-based approach, supported by structures of both PfKRS1 and C. parvum KRS (CpKRS). In vivo proof of concept was established in an SCID mouse model of malaria, after oral administration (ED(90) = 1.5 mg/kg, once a day for 4 d). Furthermore, we successfully identified an opportunity for pathogen hopping based on the structural homology between PfKRS1 and CpKRS. This series of compounds inhibit CpKRS and C. parvum and Cryptosporidium hominis in culture, and our lead compound shows oral efficacy in two cryptosporidiosis mouse models. X-ray crystallography and molecular dynamics simulations have provided a model to rationalize the selectivity of our compounds for PfKRS1 and CpKRS vs. (human) HsKRS. Our work validates apicomplexan KRSs as promising targets for the development of drugs for malaria and cryptosporidiosis. National Academy of Sciences 2019-04-02 2019-03-20 /pmc/articles/PMC6452685/ /pubmed/30894487 http://dx.doi.org/10.1073/pnas.1814685116 Text en Copyright © 2019 the Author(s). Published by PNAS. http://creativecommons.org/licenses/by/4.0/ This open access article is distributed under Creative Commons Attribution License 4.0 (CC BY) (http://creativecommons.org/licenses/by/4.0/) .
spellingShingle Biological Sciences
Baragaña, Beatriz
Forte, Barbara
Choi, Ryan
Nakazawa Hewitt, Stephen
Bueren-Calabuig, Juan A.
Pisco, João Pedro
Peet, Caroline
Dranow, David M.
Robinson, David A.
Jansen, Chimed
Norcross, Neil R.
Vinayak, Sumiti
Anderson, Mark
Brooks, Carrie F.
Cooper, Caitlin A.
Damerow, Sebastian
Delves, Michael
Dowers, Karen
Duffy, James
Edwards, Thomas E.
Hallyburton, Irene
Horst, Benjamin G.
Hulverson, Matthew A.
Ferguson, Liam
Jiménez-Díaz, María Belén
Jumani, Rajiv S.
Lorimer, Donald D.
Love, Melissa S.
Maher, Steven
Matthews, Holly
McNamara, Case W.
Miller, Peter
O’Neill, Sandra
Ojo, Kayode K.
Osuna-Cabello, Maria
Pinto, Erika
Post, John
Riley, Jennifer
Rottmann, Matthias
Sanz, Laura M.
Scullion, Paul
Sharma, Arvind
Shepherd, Sharon M.
Shishikura, Yoko
Simeons, Frederick R. C.
Stebbins, Erin E.
Stojanovski, Laste
Straschil, Ursula
Tamaki, Fabio K.
Tamjar, Jevgenia
Torrie, Leah S.
Vantaux, Amélie
Witkowski, Benoît
Wittlin, Sergio
Yogavel, Manickam
Zuccotto, Fabio
Angulo-Barturen, Iñigo
Sinden, Robert
Baum, Jake
Gamo, Francisco-Javier
Mäser, Pascal
Kyle, Dennis E.
Winzeler, Elizabeth A.
Myler, Peter J.
Wyatt, Paul G.
Floyd, David
Matthews, David
Sharma, Amit
Striepen, Boris
Huston, Christopher D.
Gray, David W.
Fairlamb, Alan H.
Pisliakov, Andrei V.
Walpole, Chris
Read, Kevin D.
Van Voorhis, Wesley C.
Gilbert, Ian H.
Lysyl-tRNA synthetase as a drug target in malaria and cryptosporidiosis
title Lysyl-tRNA synthetase as a drug target in malaria and cryptosporidiosis
title_full Lysyl-tRNA synthetase as a drug target in malaria and cryptosporidiosis
title_fullStr Lysyl-tRNA synthetase as a drug target in malaria and cryptosporidiosis
title_full_unstemmed Lysyl-tRNA synthetase as a drug target in malaria and cryptosporidiosis
title_short Lysyl-tRNA synthetase as a drug target in malaria and cryptosporidiosis
title_sort lysyl-trna synthetase as a drug target in malaria and cryptosporidiosis
topic Biological Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6452685/
https://www.ncbi.nlm.nih.gov/pubmed/30894487
http://dx.doi.org/10.1073/pnas.1814685116
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