Abstract

BACKGROUND: Artemisinin monotherapy of Plasmodium falciparum infection is frequently ineffective due to recrudescence. Artemisinin-induced dormancy, shown in vitro and in animal models, provides a plausible explanation. To date, direct evidence of artemisinin-induced dormancy in humans is lacking. METHODS: Blood samples were collected from Plasmodium falciparum 3D7- or K13-infected participants before and 48-72 hours after single dose artesunate (AS) treatment. Parasite morphology, molecular signature of dormancy, capability and dynamics of seeding in vitro cultures, and genetic mutations in the K13 gene were investigated. RESULTS: Dormant parasites were observed in post-AS blood samples of 3D7- and K13-infected participants. The molecular signature of dormancy, an up-regulation of acetyl CoA carboxylase, was detected in 3D7 and K13 samples post-AS, but not in pre-AS samples. Post-treatment samples successfully seeded in vitro cultures, with a significant delay in time to reach 2% parasitemia compared to pre-treatment samples. CONCLUSION: This study provides strong evidence for the presence of artemisinin-induced dormant parasites in P. falciparum infections. These parasites are a likely reservoir for recrudescent infection following artemisinin monotherapy and artemisinin combination therapy (ACT). Combination regimens that target dormant parasites or remain at therapeutic levels for a sufficient time to kill recovering parasites will likely improve efficacy of ACTs.

Authors	Peatey, Christopher; Chen, Nanhua; Gresty, Karryn; Anderson, Karen; Pickering, Paul; Watts, Rebecca; Gatton, Michelle L; McCarthy, James; Cheng, Qin
Journal	The Journal of infectious diseases
Pages	1631-1638
Volume	223
Date	1/09/2020
Grant ID
Funding Body	Medicines for Malaria Venture
URL	http://www.ncbi.nlm.nih.gov/pubmed/?term=10.1093/infdis/jiaa562