Reaction hijacking of tyrosine tRNA synthetase as a whole-of-life-cycle antimalarial strategy

Aminoacyl tRNA synthetases (aaRSs) are attractive drug targets. Here we show that class I and II aaRSs are previously unrecognized targets for AMP-mimicking nucleoside sulfamates. The target enzyme catalyzes the formation of an inhibitory amino acid-sulfamate conjugate, via a reaction-hijacking mech...

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Autores principales: Xie, Stanley C., Metcalfe, Riley D., Dunn, Elyse, Morton, Craig J., Huang, Shih-Chung, Puhalovich, Tanya, Du, Yawei, Wittlin, Sergio, Nie, Shuai, Luth, Madeline R., Ma, Liting, Kim, Mi-Sook, Pasaje, Charisse Flerida A., Kumpornsin, Krittikorn, Giannangelo, Carlo, Houghton, Fiona J., Churchyard, Alisje, Famodimu, Mufuliat T., Barry, Daniel C., Gillett, David L., Dey, Sumanta, Kosasih, Clara C., Newman, William, Niles, Jacquin C., Lee, Marcus C.S., Baum, Jake, Ottilie, Sabine, Winzeler, Elizabeth A., Creek, Darren J., Williamson, Nicholas, Parker, Michael W., Brand, Stephen L., Langston, Steven P., Dick, Lawrence R., Griffin, Michael D.W., Gould, Alexandra E., Tilley, Leann
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7613620/
https://www.ncbi.nlm.nih.gov/pubmed/35653481
http://dx.doi.org/10.1126/science.abn0611
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author Xie, Stanley C.
Metcalfe, Riley D.
Dunn, Elyse
Morton, Craig J.
Huang, Shih-Chung
Puhalovich, Tanya
Du, Yawei
Wittlin, Sergio
Nie, Shuai
Luth, Madeline R.
Ma, Liting
Kim, Mi-Sook
Pasaje, Charisse Flerida A.
Kumpornsin, Krittikorn
Giannangelo, Carlo
Houghton, Fiona J.
Churchyard, Alisje
Famodimu, Mufuliat T.
Barry, Daniel C.
Gillett, David L.
Dey, Sumanta
Kosasih, Clara C.
Newman, William
Niles, Jacquin C.
Lee, Marcus C.S.
Baum, Jake
Ottilie, Sabine
Winzeler, Elizabeth A.
Creek, Darren J.
Williamson, Nicholas
Parker, Michael W.
Brand, Stephen L.
Langston, Steven P.
Dick, Lawrence R.
Griffin, Michael D.W.
Gould, Alexandra E.
Tilley, Leann
author_facet Xie, Stanley C.
Metcalfe, Riley D.
Dunn, Elyse
Morton, Craig J.
Huang, Shih-Chung
Puhalovich, Tanya
Du, Yawei
Wittlin, Sergio
Nie, Shuai
Luth, Madeline R.
Ma, Liting
Kim, Mi-Sook
Pasaje, Charisse Flerida A.
Kumpornsin, Krittikorn
Giannangelo, Carlo
Houghton, Fiona J.
Churchyard, Alisje
Famodimu, Mufuliat T.
Barry, Daniel C.
Gillett, David L.
Dey, Sumanta
Kosasih, Clara C.
Newman, William
Niles, Jacquin C.
Lee, Marcus C.S.
Baum, Jake
Ottilie, Sabine
Winzeler, Elizabeth A.
Creek, Darren J.
Williamson, Nicholas
Parker, Michael W.
Brand, Stephen L.
Langston, Steven P.
Dick, Lawrence R.
Griffin, Michael D.W.
Gould, Alexandra E.
Tilley, Leann
author_sort Xie, Stanley C.
collection PubMed
description Aminoacyl tRNA synthetases (aaRSs) are attractive drug targets. Here we show that class I and II aaRSs are previously unrecognized targets for AMP-mimicking nucleoside sulfamates. The target enzyme catalyzes the formation of an inhibitory amino acid-sulfamate conjugate, via a reaction-hijacking mechanism. We identified adenosine 5′-sulfamate (AMS) as a broad specificity compound that hijacks a range of aaRSs; and ML901 as a specific reagent that hijacks a single aaRSs in the malaria parasite, Plasmodium falciparum, namely, tyrosine RS (PfYRS). ML901 exerts whole-of-life-cycle killing activity with low nanomolar potency and single dose efficacy in a mouse model of malaria. X-ray crystallographic studies of plasmodium and human YRSs reveal differential flexibility of a loop over the catalytic site that underpins differential susceptibility to reaction-hijacking by ML901.
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spelling pubmed-76136202022-09-22 Reaction hijacking of tyrosine tRNA synthetase as a whole-of-life-cycle antimalarial strategy Xie, Stanley C. Metcalfe, Riley D. Dunn, Elyse Morton, Craig J. Huang, Shih-Chung Puhalovich, Tanya Du, Yawei Wittlin, Sergio Nie, Shuai Luth, Madeline R. Ma, Liting Kim, Mi-Sook Pasaje, Charisse Flerida A. Kumpornsin, Krittikorn Giannangelo, Carlo Houghton, Fiona J. Churchyard, Alisje Famodimu, Mufuliat T. Barry, Daniel C. Gillett, David L. Dey, Sumanta Kosasih, Clara C. Newman, William Niles, Jacquin C. Lee, Marcus C.S. Baum, Jake Ottilie, Sabine Winzeler, Elizabeth A. Creek, Darren J. Williamson, Nicholas Parker, Michael W. Brand, Stephen L. Langston, Steven P. Dick, Lawrence R. Griffin, Michael D.W. Gould, Alexandra E. Tilley, Leann Science Article Aminoacyl tRNA synthetases (aaRSs) are attractive drug targets. Here we show that class I and II aaRSs are previously unrecognized targets for AMP-mimicking nucleoside sulfamates. The target enzyme catalyzes the formation of an inhibitory amino acid-sulfamate conjugate, via a reaction-hijacking mechanism. We identified adenosine 5′-sulfamate (AMS) as a broad specificity compound that hijacks a range of aaRSs; and ML901 as a specific reagent that hijacks a single aaRSs in the malaria parasite, Plasmodium falciparum, namely, tyrosine RS (PfYRS). ML901 exerts whole-of-life-cycle killing activity with low nanomolar potency and single dose efficacy in a mouse model of malaria. X-ray crystallographic studies of plasmodium and human YRSs reveal differential flexibility of a loop over the catalytic site that underpins differential susceptibility to reaction-hijacking by ML901. 2022-06-03 2022-06-02 /pmc/articles/PMC7613620/ /pubmed/35653481 http://dx.doi.org/10.1126/science.abn0611 Text en https://creativecommons.org/licenses/by/4.0/This work is licensed under a CC BY 4.0 (https://creativecommons.org/licenses/by/4.0/) International license.
spellingShingle Article
Xie, Stanley C.
Metcalfe, Riley D.
Dunn, Elyse
Morton, Craig J.
Huang, Shih-Chung
Puhalovich, Tanya
Du, Yawei
Wittlin, Sergio
Nie, Shuai
Luth, Madeline R.
Ma, Liting
Kim, Mi-Sook
Pasaje, Charisse Flerida A.
Kumpornsin, Krittikorn
Giannangelo, Carlo
Houghton, Fiona J.
Churchyard, Alisje
Famodimu, Mufuliat T.
Barry, Daniel C.
Gillett, David L.
Dey, Sumanta
Kosasih, Clara C.
Newman, William
Niles, Jacquin C.
Lee, Marcus C.S.
Baum, Jake
Ottilie, Sabine
Winzeler, Elizabeth A.
Creek, Darren J.
Williamson, Nicholas
Parker, Michael W.
Brand, Stephen L.
Langston, Steven P.
Dick, Lawrence R.
Griffin, Michael D.W.
Gould, Alexandra E.
Tilley, Leann
Reaction hijacking of tyrosine tRNA synthetase as a whole-of-life-cycle antimalarial strategy
title Reaction hijacking of tyrosine tRNA synthetase as a whole-of-life-cycle antimalarial strategy
title_full Reaction hijacking of tyrosine tRNA synthetase as a whole-of-life-cycle antimalarial strategy
title_fullStr Reaction hijacking of tyrosine tRNA synthetase as a whole-of-life-cycle antimalarial strategy
title_full_unstemmed Reaction hijacking of tyrosine tRNA synthetase as a whole-of-life-cycle antimalarial strategy
title_short Reaction hijacking of tyrosine tRNA synthetase as a whole-of-life-cycle antimalarial strategy
title_sort reaction hijacking of tyrosine trna synthetase as a whole-of-life-cycle antimalarial strategy
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7613620/
https://www.ncbi.nlm.nih.gov/pubmed/35653481
http://dx.doi.org/10.1126/science.abn0611
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