Plasmodium falciparum Clearance Is Pitting-Dependent With Artemisinin-Based Drugs but Pitting-Independent With Atovaquone-Proguanil or Mefloquine

Wojnarski, Mariusz; Mouri, Oussama; Chambrion, Charlotte; Roussel, Camille; Chartrel, Nathalie; Smith, Bryan; Smith, Philip L.; Thellier, Marc; Buffet, Pierre; Ndour, Papa Alioune

doi:10.1093/infdis/jiz115

Cited by 6 publications

(5 citation statements)

References 14 publications

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“…After pitting, once-infected red cells still containing HRP2 (exported to the erythrocyte before pitting, see earlier) return to the circulation [76,77], where they persist for several weeks, corresponding to the period of persisting mRDT positivity. This explains a previously reported finding of artemisinin-based treatment being associated with rapid parasite clearance but slower HRP2 clearance than the antifols [78], which, similar to other slower acting drugs [79], allow parasites to mature and sequester leading to more rapid HRP2 clearance [78] (Figure 2). PCR amplifies at least two single copy genes from the same sample (not ribosomal genes, which are multicopy)…”

Section: Other Sources Of Inaccuracysupporting

confidence: 64%

HRP2: Transforming Malaria Diagnosis, but with Caveats

Poti

Sullivan

Dondorp

et al. 2020

Trends in Parasitology

106

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The major growth in point-of-care malaria diagnosis over the past decade has been based on immunochromatographic malaria rapid diagnostic tests (mRDTs), which generally detect Plasmodium falciparum via its abundant histidine-rich protein 2 (HRP2). Here, we review the discovery and biology of HRP2, as well as the strengths and weaknesses of HRP2-based diagnosis compared with alternative antigens. We highlight recent studies describing HRP2 deletion in Latin America, Eritrea, and possibly other regions, and the methodological challenges of confirming deletion of the pfhrp2 gene. We also discuss the mechanism of persistent HRP2 positivity after effective antimalarial treatment, along with other emerging HRP2-based applications, including detection of submicroscopic malaria and diagnosis of severe malaria.

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Section: Other Sources Of Inaccuracysupporting

confidence: 64%

HRP2: Transforming Malaria Diagnosis, but with Caveats

Poti

Sullivan

Dondorp

et al. 2020

Trends in Parasitology

106

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“…FIKK4.2 localizes to a compartment of the infected erythrocyte distinct from the Maurer's clefts or J-dots, and disruption of the gene encoding FIKK4.2 leads to dramatically altered mechanical properties and cytoadherence of infected erythrocytes ( Kats et al, 2014 ). Specifically, erythrocytes infected with FIKK4.2 knockout parasites were less rigid and less adhesive than erythrocytes harboring parasites with functional FIKK4.2 ( Kats et al, 2014 ), a phenotype also observed in cells infected with artemisinin-resistant parasites ( Ndour et al, 2015 ; Wojnarski et al, 2019 ). Further studies would be required to determine whether mutations in FIKK4.2 contribute to changes in deformability observed in artemisinin resistant parasites.…”

Section: Discussionmentioning

confidence: 88%

“…Previous studies have indicated that in populations with less antimalarial immunity, “pitting” (i.e., splenic removal of parasites from infected erythrocytes) is a major mechanism for rapid parasite clearance following treatment with artemisinin derivatives ( Ndour et al, 2015 ; Wojnarski et al, 2019 ). However, erythrocytes infected by artemisinin resistant parasites have been shown to have increased deformability and reduced splenic pitting, allowing them to remain in circulation ( Wojnarski et al, 2019 ). One unexplored hypothesis is that exported proteins could contribute to the altered deformability and reduced splenic clearance of artemisinin-resistant parasites.…”

Section: Discussionmentioning

confidence: 99%

Integration of population and functional genomics to understand mechanisms of artemisinin resistance in Plasmodium falciparum

Oberstaller

Zoungrana

Bannerman

et al. 2021

International Journal for Parasitology: Drugs and Drug Resistan

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Resistance to antimalarial drugs, and in particular to the artemisinin derivatives and their partner drugs, threatens recent progress toward regional malaria elimination and eventual global malaria eradication. Population-level studies utilizing whole-genome sequencing approaches have facilitated the identification of regions of the parasite genome associated with both clinical and in vitro drug-resistance phenotypes. However, the biological relevance of genes identified in these analyses and the establishment of a causal relationship between genotype and phenotype requires functional characterization. Here we examined data from population genomic and transcriptomic studies in the context of data generated from recent functional studies, using a new population genetic approach designed to identify potential favored mutations within the region of a selective sweep (iSAFE). We identified several genes functioning in pathways now known to be associated with artemisinin resistance that were supported in early population genomic studies, as well as potential new drug targets/pathways for further validation and consideration for treatment of artemisinin-resistant Plasmodium falciparum. In addition, we establish the utility of iSAFE in identifying positively-selected mutations in population genomic studies, potentially accelerating the time to functional validation of candidate genes.

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“…Pitting appears to be an important contributor to clearance in infants, who are expected to have low anti-parasite humoral immunity; however in older children, immunity correlates with an even faster parasite clearance, likely through immune-mediated phagocytosis, and possibly through splenic retention without pitting [50]. Pitting is marked in patients treated with intravenous artesunate or oral artemisinin derivatives, and much lower after treatment with quinine, mefloquine or atovaquone-proguanil [51].…”

Section: Contribution Of Pitting To Parasite Clearancementioning

confidence: 99%