Kelch13 and MDR1 Polymorphisms, and Drug Effectiveness at Day 3 after Dihydroartemisinin-Piperaquine Treatment for Plasmodium falciparum Malaria on Bioko Island, Equatorial Guinea: 2014-2017

Artemisinin (ART) combination therapies were introduced on malaria endemic Bioko Island in 2004 through Bioko Island Malaria Control Project. Recently, ART-resistant Plasmodium falciparum strain with Kelch13 (K13) propeller M579I mutation originating from Equatorial Guinea was observed as an increased parasite clearance time on day 3 after dihydroartemisinin-Piperaquine (DHA-PIP) treatment (D3 positivity). Here, we surveyed DHA-PIP effectiveness and molecular markers of drug resistance at D3 after DHA-PIP treatment on Bioko Island from 2014 to 2017. Among the 371 uncomplicated P. falciparum patients, 86.3% (320/471) were successfully followed up at D3. 5.9% (19/320) of patients showed D3 positivity. K13 and MDR1 gene were successfully sequenced from 46 patients collected at D0 (baseline population) and 19 D3-positivity patients. Five non-synonymous K13 mutations (H136N; K189N; K248N; K326E; K332N) were found. There was no statistical difference in the frequency of these K13 mutations between baseline population and D3-positivity samples (p>0.05). Additionally, none of the K13 propeller polymorphisms known to be involved in ART-resistance in Asia or Africa were detected. For MDR1 gene, 38.5% (25/65) carried N86Y mutation; 73.8% (48/65) the Y184F mutation. Parasites surviving DHA-PIP at D3 post-treatment were significantly more likely than the baseline population to carry the N86Y (p