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Monitoring <i>Plasmodium falciparum</i> and <i>Plasmodium vivax</i> using microsatellite markers indicates limited changes in population structure after substantial transmission decline in Papua New Guinea

Johanna Helena Kattenberg, Zahra Razook, Raksmei Keo, Cristian Koepfli, Charlie Jennison, Dulcie Lautu‐Gumal, Abebe A. Fola, Maria Ome‐Kaius, Céline Barnadas, Peter Siba, Ingrid Felger, James W. Kazura, Ivo Müeller, Leanne J. Robinson, Alyssa E. Barry

2020Molecular Ecology32 citationsDOIOpen Access PDF

Abstract

Abstract Monitoring the genetic structure of pathogen populations may be an economical and sensitive approach to quantify the impact of control on transmission dynamics, highlighting the need for a better understanding of changes in population genetic parameters as transmission declines. Here we describe the first population genetic analysis of two major human malaria parasites, Plasmodium falciparum ( Pf ) and Plasmodium vivax ( Pv ), following nationwide distribution of long‐lasting insecticide‐treated nets (LLINs) in Papua New Guinea (PNG). Parasite isolates from pre‐ (2005–2006) and post‐LLIN (2010–2014) were genotyped using microsatellite markers. Despite parasite prevalence declining substantially (East Sepik Province: Pf = 54.9%–8.5%, Pv = 35.7%–5.6%, Madang Province: Pf = 38.0%–9.0%, Pv : 31.8%–19.7%), genetically diverse and intermixing parasite populations remained. Pf diversity declined modestly post‐LLIN relative to pre‐LLIN (East Sepik: R s = 7.1–6.4, H E = 0.77–0.71; Madang: R s = 8.2–6.1, H E = 0.79–0.71). Unexpectedly, population structure present in pre‐LLIN populations was lost post‐LLIN, suggesting that more frequent human movement between provinces may have contributed to higher gene flow. Pv prevalence initially declined but increased again in one province, yet diversity remained high throughout the study period (East Sepik: R s = 11.4–9.3, H E = 0.83–0.80; Madang: R s = 12.2–14.5, H E = 0.85–0.88). Although genetic differentiation values increased between provinces over time, no significant population structure was observed at any time point. For both species, a decline in multiple infections and increasing clonal transmission and significant multilocus linkage disequilibrium post‐LLIN were positive indicators of impact on the parasite population using microsatellite markers. These parameters may be useful adjuncts to traditional epidemiological tools in the early stages of transmission reduction.

Topics & Concepts

BiologyPlasmodium falciparumGenetic diversityPopulationMalariaPlasmodium vivaxMicrosatelliteTransmission (telecommunications)Genetic structureMass drug administrationPlasmodium (life cycle)Genetic variationZoologyParasite hostingDemographyGeneticsImmunologyGeneWorld Wide WebSociologyComputer scienceEngineeringElectrical engineeringAlleleMalaria Research and ControlParasite Biology and Host InteractionsMosquito-borne diseases and control
Monitoring <i>Plasmodium falciparum</i> and <i>Plasmodium vivax</i> using microsatellite markers indicates limited changes in population structure after substantial transmission decline in Papua New Guinea | Litcius