Author:
Yade Mamadou Samb,Dièye Baba,Coppée Romain,Mbaye Aminata,Diallo Mamadou Alpha,Diongue Khadim,Bailly Justine,Mama Atikatou,Fall Awa,Thiaw Alphonse Birane,Ndiaye Ibrahima Mbaye,Ndiaye Tolla,Gaye Amy,Tine Abdoulaye,Diédhiou Younouss,Mbaye Amadou Mactar,Doderer-Lang Cécile,Garba Mamane Nassirou,Bei Amy Kristine,Ménard Didier,Ndiaye Daouda
Abstract
Abstract
Background
Malaria control is highly dependent on the effectiveness of artemisinin-based combination therapy (ACT), the current frontline malaria curative treatment. Unfortunately, the emergence and spread of parasites resistant to artemisinin (ART) derivatives in Southeast Asia and South America, and more recently in Rwanda and Uganda (East Africa), compromise their long-term use in sub-Saharan Africa, where most malaria deaths occur.
Methods
Here, ex vivo susceptibility to dihydroartemisinin (DHA) was evaluated from 38 Plasmodium falciparum isolates collected in 2017 in Thiès (Senegal) expressed in the Ring-stage Survival Assay (RSA). Both major and minor variants were explored in the three conserved-encoding domains of the pfkelch13 gene, the main determinant of ART resistance using a targeted-amplicon deep sequencing (TADS) approach.
Results
All samples tested in the ex vivo RSA were found to be susceptible to DHA (parasite survival rate < 1%). The non-synonymous mutations K189T and K248R in pfkelch13 were observed each in one isolate, as major (99%) or minor (5%) variants, respectively.
Conclusion
The results suggest that ART is still fully effective in the Thiès region of Senegal in 2017. Investigations combining ex vivo RSA and TADS are a useful approach for monitoring ART resistance in Africa.
Funder
Cochin institute
International Centers of Excellence for Malaria Research (ICEMR), West Africa
Institut Pasteur, Paris, the French Government (Agence Nationale de la Recherche), Laboratoire d’Excellence (LabEx) “French Parasitology Alliance for Health Care”
Publisher
Springer Science and Business Media LLC
Subject
Infectious Diseases,Parasitology
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