Diversity-oriented synthesis probe targets Plasmodium falciparum cytochrome b ubiquinone reduction site and synergizes with oxidation site inhibitors.
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| Abstract | BACKGROUND: The emergence and spread of drug resistance to current antimalarial therapies remains a pressing concern, escalating the need for compounds that demonstrate novel modes of action. Diversity-Oriented Synthesis (DOS) libraries bridge the gap between conventional small molecule and natural product libraries, allowing the interrogation of more diverse chemical space in efforts to identify probes of novel parasite pathways. METHODS: We screened and optimized a probe from a DOS library using whole-cell phenotypic assays. Resistance selection and whole-genome sequencing approaches were employed to identify the cellular target of the compounds. RESULTS: We identified a novel macrocyclic inhibitor of Plasmodium falciparum with nanomolar potency and identified the reduction site of cytochrome b as its cellular target. Combination experiments with reduction and oxidation site inhibitors showed synergistic inhibition of the parasite. CONCLUSIONS: The cytochrome b oxidation center is a validated antimalarial target. We show that the reduction site of cytochrome b is also a druggable target. Our results demonstrating a synergistic relationship between oxidation and reduction site inhibitors suggests a future strategy for new combination therapies in the treatment of malaria. |
| Year of Publication | 2015
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| Journal | J Infect Dis
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| Volume | 211
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| Issue | 7
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| Pages | 1097-103
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| Date Published | 2015 Apr 01
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| ISSN | 1537-6613
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| DOI | 10.1093/infdis/jiu565
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| PubMed ID | 25336726
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| PubMed Central ID | PMC4354981
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| Grant list | T32 CA009337 / CA / NCI NIH HHS / United States
AI093716-01A1 / AI / NIAID NIH HHS / United States
U54 HG005032 / HG / NHGRI NIH HHS / United States
1U54HG005032-1 / HG / NHGRI NIH HHS / United States
R01 AI093716 / AI / NIAID NIH HHS / United States
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