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Diversity-oriented synthesis yields novel multistage antimalarial inhibitors.

Publication ,  Journal Article
Kato, N; Comer, E; Sakata-Kato, T; Sharma, A; Sharma, M; Maetani, M; Bastien, J; Brancucci, NM; Bittker, JA; Corey, V; Clarke, D; Dornan, GL ...
Published in: Nature
October 2016
Published version (DOI)

Antimalarial drugs have thus far been chiefly derived from two sources-natural products and synthetic drug-like compounds. Here we investigate whether antimalarial agents with novel mechanisms of action could be discovered using a diverse collection of synthetic compounds that have three-dimensional features reminiscent of natural products and are underrepresented in typical screening collections. We report the identification of such compounds with both previously reported and undescribed mechanisms of action, including a series of bicyclic azetidines that inhibit a new antimalarial target, phenylalanyl-tRNA synthetase. These molecules are curative in mice at a single, low dose and show activity against all parasite life stages in multiple in vivo efficacy models. Our findings identify bicyclic azetidines with the potential to both cure and prevent transmission of the disease as well as protect at-risk populations with a single oral dose, highlighting the strength of diversity-oriented synthesis in revealing promising therapeutic targets.

Duke Scholars

Emily R. Derbyshire
Author Emily R. Derbyshire Chemistry
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Published In

Nature

DOI

10.1038/nature19804

EISSN

1476-4687

ISSN

0028-0836

Publication Date

October 2016

Volume

538

Issue

7625

Start / End Page

344 / 349

Related Subject Headings

  • Safety
  • Plasmodium falciparum
  • Phenylurea Compounds
  • Phenylalanine-tRNA Ligase
  • Mice
  • Male
  • Malaria, Falciparum
  • Macaca mulatta
  • Liver
  • Life Cycle Stages
 

Citation

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Kato, N., Comer, E., Sakata-Kato, T., Sharma, A., Sharma, M., Maetani, M., … Schreiber, S. L. (2016). Diversity-oriented synthesis yields novel multistage antimalarial inhibitors. Nature, 538(7625), 344–349. https://doi.org/10.1038/nature19804
Kato, Nobutaka, Eamon Comer, Tomoyo Sakata-Kato, Arvind Sharma, Manmohan Sharma, Micah Maetani, Jessica Bastien, et al. “Diversity-oriented synthesis yields novel multistage antimalarial inhibitors.Nature 538, no. 7625 (October 2016): 344–49. https://doi.org/10.1038/nature19804.
Kato N, Comer E, Sakata-Kato T, Sharma A, Sharma M, Maetani M, et al. Diversity-oriented synthesis yields novel multistage antimalarial inhibitors. Nature. 2016 Oct;538(7625):344–9.
Kato, Nobutaka, et al. “Diversity-oriented synthesis yields novel multistage antimalarial inhibitors.Nature, vol. 538, no. 7625, Oct. 2016, pp. 344–49. Epmc, doi:10.1038/nature19804.
Kato N, Comer E, Sakata-Kato T, Sharma A, Sharma M, Maetani M, Bastien J, Brancucci NM, Bittker JA, Corey V, Clarke D, Derbyshire ER, Dornan GL, Duffy S, Eckley S, Itoe MA, Koolen KMJ, Lewis TA, Lui PS, Lukens AK, Lund E, March S, Meibalan E, Meier BC, McPhail JA, Mitasev B, Moss EL, Sayes M, Van Gessel Y, Wawer MJ, Yoshinaga T, Zeeman A-M, Avery VM, Bhatia SN, Burke JE, Catteruccia F, Clardy JC, Clemons PA, Dechering KJ, Duvall JR, Foley MA, Gusovsky F, Kocken CHM, Marti M, Morningstar ML, Munoz B, Neafsey DE, Winzeler EA, Wirth DF, Scherer CA, Schreiber SL. Diversity-oriented synthesis yields novel multistage antimalarial inhibitors. Nature. 2016 Oct;538(7625):344–349.
Journal cover image

Published In

Nature

DOI

10.1038/nature19804

EISSN

1476-4687

ISSN

0028-0836

Publication Date

October 2016

Volume

538

Issue

7625

Start / End Page

344 / 349

Related Subject Headings

  • Safety
  • Plasmodium falciparum
  • Phenylurea Compounds
  • Phenylalanine-tRNA Ligase
  • Mice
  • Male
  • Malaria, Falciparum
  • Macaca mulatta
  • Liver
  • Life Cycle Stages