Mutant PfCRT Can Mediate Piperaquine Resistance in African Plasmodium falciparum with Reduced Fitness and Increased Susceptibility to Other Antimalarials

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Abstract

Background. Additional therapeutic strategies could benefit efforts to reverse the recent increase in malaria cases in sub-Saharan Africa, which mostly affects young children. A primary candidate is dihydroartemisinin + piperaquine (DHA + PPQ), which is effective for uncomplicated malaria treatment, seasonal malaria chemoprevention, and intermittent preventive treatment. In Southeast Asia, Plasmodium falciparum parasites acquired PPQ resistance, mediated primarily by mutations in the P falciparum chloroquine resistance transporter PfCRT. The recent emergence in Africa of DHA-resistant parasites creates an imperative to assess whether PPQ resistance could emerge in African parasites with distinct PfCRT isoforms. Methods. We edited 2 PfCRT mutations known to mediate high-grade PPQ resistance in Southeast Asia into GB4 parasites from Gabon. Gene-edited clones were profiled in antimalarial concentration-response and fitness assays. Results. The PfCRT F145I mutation mediated moderate PPQ resistance in GB4 parasites but with a substantial fitness cost. No resistance was observed with the PfCRT G353V mutant. Both edited clones became significantly more susceptible to amodiaquine, chloroquine, and quinine. Conclusions. A single PfCRT mutation can mediate PPQ resistance in GB4 parasites, but with a growth defect that may preclude its spread without further genetic adaptations. Our findings support regional use of drug combinations that exert opposing selective pressures on PfCRT.

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Wicht, K. J., Small-Saunders, J. L., Hagenah, L. M., Mok, S., & Fidock, D. A. (2022). Mutant PfCRT Can Mediate Piperaquine Resistance in African Plasmodium falciparum with Reduced Fitness and Increased Susceptibility to Other Antimalarials. Journal of Infectious Diseases, 226(11), 2021–2029. https://doi.org/10.1093/infdis/jiac365

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