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A cryptic cycle in haematopoietic niches promotes initiation of malaria transmission and evasion of chemotherapy

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  • Rebecca S. Lee

    (University of Glasgow)

  • Andrew P. Waters

    (University of Glasgow)

  • James M. Brewer

    (University of Glasgow)

Abstract

Blood stage human malaria parasites may exploit erythropoietic tissue niches and colonise erythroid progenitors; however, the precise influence of the erythropoietic environment on fundamental parasite biology remains unknown. Here we use quantitative approaches to enumerate Plasmodium infected erythropoietic precursor cells using an in vivo rodent model of Plasmodium berghei. We show that parasitised early reticulocytes (ER) in the major sites of haematopoiesis establish a cryptic asexual cycle. Moreover, this cycle is characterised by early preferential commitment to gametocytogenesis, which occurs in sufficient numbers to generate almost all of the initial population of circulating, mature gametocytes. In addition, we show that P. berghei is less sensitive to artemisinin in splenic ER than in blood, which suggests that haematopoietic tissues may enable origins of recrudescent infection and emerging resistance to antimalarials. Continuous propagation in these sites may also provide a mechanism for continuous transmission and infection in malaria endemic regions.

Suggested Citation

  • Rebecca S. Lee & Andrew P. Waters & James M. Brewer, 2018. "A cryptic cycle in haematopoietic niches promotes initiation of malaria transmission and evasion of chemotherapy," Nature Communications, Nature, vol. 9(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-04108-9
    DOI: 10.1038/s41467-018-04108-9
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    Cited by:

    1. Alexandre Girard & Anneli Cooper & Samuel Mabbott & Barbara Bradley & Steven Asiala & Lauren Jamieson & Caroline Clucas & Paul Capewell & Francesco Marchesi & Matthew P Gibbins & Franziska Hentzschel , 2021. "Raman spectroscopic analysis of skin as a diagnostic tool for Human African Trypanosomiasis," PLOS Pathogens, Public Library of Science, vol. 17(11), pages 1-28, November.

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