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Fast acting allosteric phosphofructokinase inhibitors block trypanosome glycolysis and cure acute African trypanosomiasis in mice

Author

Listed:
  • Iain W. McNae

    (University of Edinburgh, Michael Swann Building, Max Born Crescent)

  • James Kinkead

    (University of Edinburgh, Michael Swann Building, Max Born Crescent)

  • Divya Malik

    (University of Edinburgh, Michael Swann Building, Max Born Crescent)

  • Li-Hsuan Yen

    (University of Edinburgh, Michael Swann Building, Max Born Crescent)

  • Martin K. Walker

    (Selcia Ltd., Fyfield Business and Research Park, Fyfield Road, Ongar)

  • Chris Swain

    (Cambridge MedChem Consulting)

  • Scott P. Webster

    (University of Edinburgh)

  • Nick Gray

    (University of Edinburgh, Michael Swann Building, Max Born Crescent)

  • Peter M. Fernandes

    (University of Edinburgh, Michael Swann Building, Max Born Crescent)

  • Elmarie Myburgh

    (University of York)

  • Elizabeth A. Blackburn

    (University of Edinburgh, Michael Swann Building, Max Born Crescent)

  • Ryan Ritchie

    (University of Glasgow)

  • Carol Austin

    (Selcia Ltd., Fyfield Business and Research Park, Fyfield Road, Ongar)

  • Martin A. Wear

    (University of Edinburgh, Michael Swann Building, Max Born Crescent)

  • Adrian J. Highton

    (Selcia Ltd., Fyfield Business and Research Park, Fyfield Road, Ongar)

  • Andrew J. Keats

    (Selcia Ltd., Fyfield Business and Research Park, Fyfield Road, Ongar)

  • Antonio Vong

    (Selcia Ltd., Fyfield Business and Research Park, Fyfield Road, Ongar)

  • Jacqueline Dornan

    (University of Edinburgh, Michael Swann Building, Max Born Crescent)

  • Jeremy C. Mottram

    (University of York)

  • Paul A. M. Michels

    (University of Edinburgh, Michael Swann Building, Max Born Crescent)

  • Simon Pettit

    (Selcia Ltd., Fyfield Business and Research Park, Fyfield Road, Ongar)

  • Malcolm D. Walkinshaw

    (University of Edinburgh, Michael Swann Building, Max Born Crescent)

Abstract

The parasitic protist Trypanosoma brucei is the causative agent of Human African Trypanosomiasis, also known as sleeping sickness. The parasite enters the blood via the bite of the tsetse fly where it is wholly reliant on glycolysis for the production of ATP. Glycolytic enzymes have been regarded as challenging drug targets because of their highly conserved active sites and phosphorylated substrates. We describe the development of novel small molecule allosteric inhibitors of trypanosome phosphofructokinase (PFK) that block the glycolytic pathway resulting in very fast parasite kill times with no inhibition of human PFKs. The compounds cross the blood brain barrier and single day oral dosing cures parasitaemia in a stage 1 animal model of human African trypanosomiasis. This study demonstrates that it is possible to target glycolysis and additionally shows how differences in allosteric mechanisms may allow the development of species-specific inhibitors to tackle a range of proliferative or infectious diseases.

Suggested Citation

  • Iain W. McNae & James Kinkead & Divya Malik & Li-Hsuan Yen & Martin K. Walker & Chris Swain & Scott P. Webster & Nick Gray & Peter M. Fernandes & Elmarie Myburgh & Elizabeth A. Blackburn & Ryan Ritchi, 2021. "Fast acting allosteric phosphofructokinase inhibitors block trypanosome glycolysis and cure acute African trypanosomiasis in mice," Nature Communications, Nature, vol. 12(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-21273-6
    DOI: 10.1038/s41467-021-21273-6
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