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Generation of a mutator parasite to drive resistome discovery in Plasmodium falciparum

Author

Listed:
  • Krittikorn Kümpornsin

    (Wellcome Genome Campus
    Calibr, Division of the Scripps Research Institute)

  • Theerarat Kochakarn

    (Umeå University)

  • Tomas Yeo

    (Columbia University Irving Medical Center)

  • John Okombo

    (Columbia University Irving Medical Center)

  • Madeline R. Luth

    (University of California, San Diego)

  • Johanna Hoshizaki

    (Wellcome Genome Campus)

  • Mukul Rawat

    (Wellcome Genome Campus)

  • Richard D. Pearson

    (Wellcome Genome Campus)

  • Kyra A. Schindler

    (Columbia University Irving Medical Center)

  • Sachel Mok

    (Columbia University Irving Medical Center
    Columbia University Irving Medical Center)

  • Heekuk Park

    (Columbia University Irving Medical Center)

  • Anne-Catrin Uhlemann

    (Columbia University Irving Medical Center
    Columbia University Irving Medical Center)

  • Gouranga P. Jana

    (Salt-lake Electronics Complex)

  • Bikash C. Maity

    (Salt-lake Electronics Complex)

  • Benoît Laleu

    (International Centre Cointrin)

  • Elodie Chenu

    (International Centre Cointrin)

  • James Duffy

    (International Centre Cointrin)

  • Sonia Moliner Cubel

    (GlaxoSmithKline, Tres Cantos)

  • Virginia Franco

    (GlaxoSmithKline, Tres Cantos)

  • Maria G. Gomez-Lorenzo

    (GlaxoSmithKline, Tres Cantos)

  • Francisco Javier Gamo

    (GlaxoSmithKline, Tres Cantos)

  • Elizabeth A. Winzeler

    (University of California, San Diego)

  • David A. Fidock

    (Columbia University Irving Medical Center
    Columbia University Irving Medical Center)

  • Thanat Chookajorn

    (Umeå University
    Mahidol University)

  • Marcus C. S. Lee

    (Wellcome Genome Campus
    University of Dundee)

Abstract

In vitro evolution of drug resistance is a powerful approach for identifying antimalarial targets, however, key obstacles to eliciting resistance are the parasite inoculum size and mutation rate. Here we sought to increase parasite genetic diversity to potentiate resistance selections by editing catalytic residues of Plasmodium falciparum DNA polymerase δ. Mutation accumulation assays reveal a ~5–8 fold elevation in the mutation rate, with an increase of 13–28 fold in drug-pressured lines. Upon challenge with the spiroindolone PfATP4-inhibitor KAE609, high-level resistance is obtained more rapidly and at lower inocula than wild-type parasites. Selections also yield mutants with resistance to an “irresistible” compound, MMV665794 that failed to yield resistance with other strains. We validate mutations in a previously uncharacterised gene, PF3D7_1359900, which we term quinoxaline resistance protein (QRP1), as causal for resistance to MMV665794 and a panel of quinoxaline analogues. The increased genetic repertoire available to this “mutator” parasite can be leveraged to drive P. falciparum resistome discovery.

Suggested Citation

  • Krittikorn Kümpornsin & Theerarat Kochakarn & Tomas Yeo & John Okombo & Madeline R. Luth & Johanna Hoshizaki & Mukul Rawat & Richard D. Pearson & Kyra A. Schindler & Sachel Mok & Heekuk Park & Anne-Ca, 2023. "Generation of a mutator parasite to drive resistome discovery in Plasmodium falciparum," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-38774-1
    DOI: 10.1038/s41467-023-38774-1
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