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A high throughput screen for next-generation leads targeting malaria parasite transmission

Author

Listed:
  • Michael J. Delves

    (Imperial College London, Sir Alexander Fleming Building)

  • Celia Miguel-Blanco

    (Imperial College London, Sir Alexander Fleming Building
    Diseases of the Developing World (DDW), GlaxoSmithKline)

  • Holly Matthews

    (Imperial College London, Sir Alexander Fleming Building)

  • Irene Molina

    (Diseases of the Developing World (DDW), GlaxoSmithKline)

  • Andrea Ruecker

    (Imperial College London, Sir Alexander Fleming Building)

  • Sabrina Yahiya

    (Imperial College London, Sir Alexander Fleming Building)

  • Ursula Straschil

    (Imperial College London, Sir Alexander Fleming Building)

  • Matthew Abraham

    (University of California San Diego)

  • María Luisa León

    (Diseases of the Developing World (DDW), GlaxoSmithKline)

  • Oliver J. Fischer

    (Imperial College London)

  • Ainoa Rueda-Zubiaurre

    (Imperial College London)

  • Jochen R. Brandt

    (Imperial College London)

  • Álvaro Cortés

    (Diseases of the Developing World (DDW), GlaxoSmithKline)

  • Anna Barnard

    (Imperial College London)

  • Matthew J. Fuchter

    (Imperial College London)

  • Félix Calderón

    (Diseases of the Developing World (DDW), GlaxoSmithKline)

  • Elizabeth A. Winzeler

    (University of California San Diego)

  • Robert E. Sinden

    (Imperial College London, Sir Alexander Fleming Building)

  • Esperanza Herreros

    (Diseases of the Developing World (DDW), GlaxoSmithKline)

  • Francisco J. Gamo

    (Diseases of the Developing World (DDW), GlaxoSmithKline)

  • Jake Baum

    (Imperial College London, Sir Alexander Fleming Building)

Abstract

Spread of parasite resistance to artemisinin threatens current frontline antimalarial therapies, highlighting the need for new drugs with alternative modes of action. Since only 0.2–1% of asexual parasites differentiate into sexual, transmission-competent forms, targeting this natural bottleneck provides a tangible route to interrupt disease transmission and mitigate resistance selection. Here we present a high-throughput screen of gametogenesis against a ~70,000 compound diversity library, identifying seventeen drug-like molecules that target transmission. Hit molecules possess varied activity profiles including male-specific, dual acting male–female and dual-asexual-sexual, with one promising N-((4-hydroxychroman-4-yl)methyl)-sulphonamide scaffold found to have sub-micromolar activity in vitro and in vivo efficacy. Development of leads with modes of action focussed on the sexual stages of malaria parasite development provide a previously unexplored base from which future therapeutics can be developed, capable of preventing parasite transmission through the population.

Suggested Citation

  • Michael J. Delves & Celia Miguel-Blanco & Holly Matthews & Irene Molina & Andrea Ruecker & Sabrina Yahiya & Ursula Straschil & Matthew Abraham & María Luisa León & Oliver J. Fischer & Ainoa Rueda-Zubi, 2018. "A high throughput screen for next-generation leads targeting malaria parasite transmission," Nature Communications, Nature, vol. 9(1), pages 1-13, December.
  • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-05777-2
    DOI: 10.1038/s41467-018-05777-2
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    Cited by:

    1. Mario Carucci & Julien Duez & Joel Tarning & Irene García-Barbazán & Aurélie Fricot-Monsinjon & Abdoulaye Sissoko & Lucie Dumas & Pablo Gamallo & Babette Beher & Pascal Amireault & Michael Dussiot & M, 2023. "Safe drugs with high potential to block malaria transmission revealed by a spleen-mimetic screening," Nature Communications, Nature, vol. 14(1), pages 1-16, December.
    2. Laura E. Vries & Patrick A. M. Jansen & Catalina Barcelo & Justin Munro & Julie M. J. Verhoef & Charisse Flerida A. Pasaje & Kelly Rubiano & Josefine Striepen & Nada Abla & Luuk Berning & Judith M. Bo, 2022. "Preclinical characterization and target validation of the antimalarial pantothenamide MMV693183," Nature Communications, Nature, vol. 13(1), pages 1-16, December.
    3. Jiahong Li & Gerald J. Shami & Ellie Cho & Boyin Liu & Eric Hanssen & Matthew W. A. Dixon & Leann Tilley, 2022. "Repurposing the mitotic machinery to drive cellular elongation and chromatin reorganisation in Plasmodium falciparum gametocytes," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    4. Madeline G. Dans & Coralie Boulet & Gabrielle M. Watson & William Nguyen & Jerzy M. Dziekan & Cindy Evelyn & Kitsanapong Reaksudsan & Somya Mehra & Zahra Razook & Niall D. Geoghegan & Michael J. Mlodz, 2024. "Aryl amino acetamides prevent Plasmodium falciparum ring development via targeting the lipid-transfer protein PfSTART1," Nature Communications, Nature, vol. 15(1), pages 1-19, December.

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