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Molecular basis of the functional conflict between chloroquine and peptide transport in the Malaria parasite chloroquine resistance transporter PfCRT

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  • John D. Tanner

    (Australian National University)

  • Sashika N. Richards

    (Australian National University)

  • Ben Corry

    (Australian National University)

Abstract

The Plasmodium falciparum chloroquine resistance transporter (PfCRT) is a key protein contributing to resistance against the antimalarial chloroquine (CQ). Mutations such as K76T enable PfCRT to transport CQ away from its target in the parasite’s digestive vacuole, but this comes at a cost to its natural peptide transport function. This creates fitness costs which can drive changes to drug susceptibility in parasite populations, but the molecular basis of this is not well understood. To investigate, here we run 130 μs of molecular dynamics simulations of CQ-sensitive and CQ-resistant PfCRT isoforms with CQ and peptide substrates. We identify the CQ binding site and characterized diverse peptide binding modes. The K76T mutation allows CQ to access the binding site but disrupts peptide binding, highlighting the importance of cavity charge in determining substrate specificity. This study provides insight into PfCRT polyspecific peptide transport and will aid in rational, structure-based inhibitor design.

Suggested Citation

  • John D. Tanner & Sashika N. Richards & Ben Corry, 2025. "Molecular basis of the functional conflict between chloroquine and peptide transport in the Malaria parasite chloroquine resistance transporter PfCRT," Nature Communications, Nature, vol. 16(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-58244-0
    DOI: 10.1038/s41467-025-58244-0
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