Literature DB >> 34279219

Plasmodium falciparum K13 mutations in Africa and Asia impact artemisinin resistance and parasite fitness.

Barbara H Stokes1, Satish K Dhingra1, Kelly Rubiano1, Sachel Mok1, Judith Straimer1, Nina F Gnädig1, Ioanna Deni1, Kyra A Schindler1, Jade R Bath1, Kurt E Ward1,2, Josefine Striepen1, Tomas Yeo1, Leila S Ross1, Eric Legrand3, Frédéric Ariey4, Clark H Cunningham5, Issa M Souleymane6, Adama Gansané7, Romaric Nzoumbou-Boko8, Claudette Ndayikunda9, Abdunoor M Kabanywanyi10, Aline Uwimana11, Samuel J Smith12, Olimatou Kolley13, Mathieu Ndounga14, Marian Warsame15, Rithea Leang16, François Nosten17,18, Timothy Jc Anderson19, Philip J Rosenthal20, Didier Ménard3, David A Fidock21.   

Abstract

The emergence of mutant K13-mediated artemisinin (ART) resistance in Plasmodium falciparum malaria parasites has led to widespread treatment failures across Southeast Asia. In Africa, K13-propeller genotyping confirms the emergence of the R561H mutation in Rwanda and highlights the continuing dominance of wild-type K13 elsewhere. Using gene editing, we show that R561H, along with C580Y and M579I, confer elevated in vitro ART resistance in some African strains, contrasting with minimal changes in ART susceptibility in others. C580Y and M579I cause substantial fitness costs, which may slow their dissemination in high-transmission settings, in contrast with R561H that in African 3D7 parasites is fitness neutral. In Cambodia, K13 genotyping highlights the increasing spatio-temporal dominance of C580Y. Editing multiple K13 mutations into a panel of Southeast Asian strains reveals that only the R561H variant yields ART resistance comparable to C580Y. In Asian Dd2 parasites C580Y shows no fitness cost, in contrast with most other K13 mutations tested, including R561H. Editing of point mutations in ferredoxin or mdr2, earlier associated with resistance, has no impact on ART susceptibility or parasite fitness. These data underline the complex interplay between K13 mutations, parasite survival, growth and genetic background in contributing to the spread of ART resistance.
© 2021, Stokes et al.

Entities:  

Keywords:  CRISPR/Cas9; P. falciparum; Plasmodium falciparum; artemisinin resistance; epidemiology; fitness; global health; infectious disease; malaria; microbiology; ring-stage survival

Mesh:

Substances:

Year:  2021        PMID: 34279219      PMCID: PMC8321553          DOI: 10.7554/eLife.66277

Source DB:  PubMed          Journal:  Elife        ISSN: 2050-084X            Impact factor:   8.140


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