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The artemisinin-induced dormant stages of Plasmodium falciparum exhibit hallmarks of cellular quiescence/senescence and drug resilience

Author

Listed:
  • Jaishree Tripathi

    (Nanyang Technological University (NTU)
    National University of Singapore (NUS))

  • Michal Stoklasa

    (Nanyang Technological University (NTU))

  • Sourav Nayak

    (Nanyang Technological University (NTU))

  • Kay En Low

    (National University of Singapore (NUS))

  • Erica Qian Hui Lee

    (National University of Singapore (NUS))

  • Quang Huy Duong Tien

    (Nanyang Technological University (NTU))

  • Laurent Rénia

    (Nanyang Technological University (NTU)
    Nanyang Technological University (NTU)
    Technology and Research (A*STAR))

  • Benoit Malleret

    (National University of Singapore (NUS)
    National University of Singapore (NUS))

  • Zbynek Bozdech

    (Nanyang Technological University (NTU))

Abstract

Recrudescent infections with the human malaria parasite, Plasmodium falciparum, presented traditionally the major setback of artemisinin-based monotherapies. Although the introduction of artemisinin combination therapies (ACT) largely solved the problem, the ability of artemisinin to induce dormant parasites still poses an obstacle for current as well as future malaria chemotherapeutics. Here, we use a laboratory model for induction of dormant P. falciparum parasites and characterize their transcriptome, drug sensitivity profile, and cellular ultrastructure. We show that P. falciparum dormancy requires a ~ 5-day maturation process during which the genome-wide gene expression pattern gradually transitions from the ring-like state to a unique form. The transcriptome of the mature dormant stage carries hallmarks of both cellular quiescence and senescence, with downregulation of most cellular functions associated with growth and development and upregulation of selected metabolic functions and DNA repair. Moreover, the P. falciparum dormant stage is considerably more resistant to antimalaria drugs compared to the fast-growing asexual stages. Finally, the irregular cellular ultrastructure further suggests unique properties of this developmental stage of the P. falciparum life cycle that should be taken into consideration by malaria control strategies.

Suggested Citation

  • Jaishree Tripathi & Michal Stoklasa & Sourav Nayak & Kay En Low & Erica Qian Hui Lee & Quang Huy Duong Tien & Laurent Rénia & Benoit Malleret & Zbynek Bozdech, 2024. "The artemisinin-induced dormant stages of Plasmodium falciparum exhibit hallmarks of cellular quiescence/senescence and drug resilience," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-51846-0
    DOI: 10.1038/s41467-024-51846-0
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    References listed on IDEAS

    as
    1. Dominic Birth & Wei-Chun Kao & Carola Hunte, 2014. "Structural analysis of atovaquone-inhibited cytochrome bc1 complex reveals the molecular basis of antimalarial drug action," Nature Communications, Nature, vol. 5(1), pages 1-11, September.
    2. Theodore T. Ho & Matthew R. Warr & Emmalee R. Adelman & Olivia M. Lansinger & Johanna Flach & Evgenia V. Verovskaya & Maria E. Figueroa & Emmanuelle Passegué, 2017. "Autophagy maintains the metabolism and function of young and old stem cells," Nature, Nature, vol. 543(7644), pages 205-210, March.
    3. Jaishree Tripathi & Lei Zhu & Sourav Nayak & Michal Stoklasa & Zbynek Bozdech, 2022. "Stochastic expression of invasion genes in Plasmodium falciparum schizonts," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    4. Sachel Mok & Barbara H. Stokes & Nina F. Gnädig & Leila S. Ross & Tomas Yeo & Chanaki Amaratunga & Erik Allman & Lev Solyakov & Andrew R. Bottrill & Jaishree Tripathi & Rick M. Fairhurst & Manuel Llin, 2021. "Artemisinin-resistant K13 mutations rewire Plasmodium falciparum’s intra-erythrocytic metabolic program to enhance survival," Nature Communications, Nature, vol. 12(1), pages 1-15, December.
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