Multiscale effects of perturbed translation dynamics inform antimalarial design

  1. Leonie Anton
  2. Wenjing Cheng
  3. Meseret T. Haile
  4. David W. Cobb
  5. Xiyan Zhu
  6. Leyan Han
  7. Emerson Li
  8. Anjali Nair
  9. Carolyn L. Lee
  10. Hangjun Ke
  11. Guoan Zhang
  12. Emma H. Doud
  13. Chi-Min Ho

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Abstract

Malaria parasites rely heavily on rapid, high fidelity protein synthesis to infect and replicate in human erythrocytes, making translation an attractive target for new antimalarials. Here, we have determined in situ structures of Pf 80S ribosomes in thirteen conformational and compositional states from cryoFIB-milled Plasmodium falciparum -infected human erythrocytes across the stages of asexual intraerythrocytic parasite replication. We observe eight active translation intermediates, enabling us to define the native malarial translation elongation cycle, which surprisingly features a bifurcation at the decoding stage of the cycle that has not previously been described. Examination of perturbations in the distribution of ribosomes among these states in the presence of a malaria-specific translation inhibitor suggests that the inhibitor impedes Pf eEF2 and Pf eEF1α interactions with the ribosome. We integrated our in situ cryoET data with proteomic and ultrastructural data to arrive at a deeper understanding of malarial translation, which will inform development of new therapies.

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  1. Rapid Reviews Infectious Diseases

    Holly Matthews

    Review 2: "Multiscale Effects of Perturbed Translation Dynamics Inform Antimalarial Design"

    The reviewers praised the technical quality of the cryo-electron microscopy imaging and agreed that the data provides important new structural insights, however they questioned some of the interpretations related to the specific role of PfRACK1 in translational regulation.

  2. Rapid Reviews Infectious Diseases

    Slavica Pavlovic-Djuranovic, Erath Jessey

    Review 1: "Multiscale Effects of Perturbed Translation Dynamics Inform Antimalarial Design"

    The reviewers praised the technical quality of the cryo-electron microscopy imaging and agreed that the data provides important new structural insights, however they questioned some of the interpretations related to the specific role of PfRACK1 in translational regulation.

  4. Version published to 10.1101/2023.09.03.556115v2 on bioRxiv
  5. Version published to 10.1101/2023.09.03.556115v1 on bioRxiv