Author
Listed:
- Ebere Sonoiki
(University of California
School of Public Health, University of California)
- Caroline L. Ng
(Columbia University Medical Center)
- Marcus C. S. Lee
(Columbia University Medical Center
Present address: Malaria Programme, Wellcome Trust Sanger Institute, Wellcome Genome Campus, Cambridge CB10 1SA, UK)
- Denghui Guo
(University of California)
- Yong-Kang Zhang
(Anacor Pharmaceuticals)
- Yasheen Zhou
(Anacor Pharmaceuticals)
- M. R. K. Alley
(Anacor Pharmaceuticals)
- Vida Ahyong
(Howard Hughes Medical Institute, University of California)
- Laura M. Sanz
(Malaria Discovery Performance Unit, Diseases of the Developing World, Tres Cantos Medicines Development Campus,GlaxoSmithKline)
- Maria Jose Lafuente-Monasterio
(Malaria Discovery Performance Unit, Diseases of the Developing World, Tres Cantos Medicines Development Campus,GlaxoSmithKline)
- Chen Dong
(Anacor Pharmaceuticals)
- Patrick G. Schupp
(Columbia University Medical Center)
- Jiri Gut
(University of California)
- Jenny Legac
(University of California)
- Roland A. Cooper
(Dominican University of California)
- Francisco-Javier Gamo
(Malaria Discovery Performance Unit, Diseases of the Developing World, Tres Cantos Medicines Development Campus,GlaxoSmithKline)
- Joseph DeRisi
(Howard Hughes Medical Institute, University of California)
- Yvonne R. Freund
(Anacor Pharmaceuticals)
- David A. Fidock
(Columbia University Medical Center
Columbia University Medical Center)
- Philip J. Rosenthal
(University of California)
Abstract
Benzoxaboroles are effective against bacterial, fungal and protozoan pathogens. We report potent activity of the benzoxaborole AN3661 against Plasmodium falciparum laboratory-adapted strains (mean IC50 32 nM), Ugandan field isolates (mean ex vivo IC50 64 nM), and murine P. berghei and P. falciparum infections (day 4 ED90 0.34 and 0.57 mg kg−1, respectively). Multiple P. falciparum lines selected in vitro for resistance to AN3661 harboured point mutations in pfcpsf3, which encodes a homologue of mammalian cleavage and polyadenylation specificity factor subunit 3 (CPSF-73 or CPSF3). CRISPR-Cas9-mediated introduction of pfcpsf3 mutations into parental lines recapitulated AN3661 resistance. PfCPSF3 homology models placed these mutations in the active site, where AN3661 is predicted to bind. Transcripts for three trophozoite-expressed genes were lost in AN3661-treated trophozoites, which was not observed in parasites selected or engineered for AN3661 resistance. Our results identify the pre-mRNA processing factor PfCPSF3 as a promising antimalarial drug target.
Suggested Citation
Ebere Sonoiki & Caroline L. Ng & Marcus C. S. Lee & Denghui Guo & Yong-Kang Zhang & Yasheen Zhou & M. R. K. Alley & Vida Ahyong & Laura M. Sanz & Maria Jose Lafuente-Monasterio & Chen Dong & Patrick G, 2017.
"A potent antimalarial benzoxaborole targets a Plasmodium falciparum cleavage and polyadenylation specificity factor homologue,"
Nature Communications, Nature, vol. 8(1), pages 1-11, April.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms14574
DOI: 10.1038/ncomms14574
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Citations
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Cited by:
- Yange Cui & Luyang Wang & Qingbao Ding & Jihae Shin & Joel Cassel & Qin Liu & Joseph M. Salvino & Bin Tian, 2023.
"Elevated pre-mRNA 3′ end processing activity in cancer cells renders vulnerability to inhibition of cleavage and polyadenylation,"
Nature Communications, Nature, vol. 14(1), pages 1-20, December.
- Gayani Batugedara & Xueqing M. Lu & Borislav Hristov & Steven Abel & Zeinab Chahine & Thomas Hollin & Desiree Williams & Tina Wang & Anthony Cort & Todd Lenz & Trevor A. Thompson & Jacques Prudhomme &, 2023.
"Novel insights into the role of long non-coding RNA in the human malaria parasite, Plasmodium falciparum,"
Nature Communications, Nature, vol. 14(1), pages 1-19, December.
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