Sickle cell status skews malaria parasite genotype at infection

Sickle hemoglobin (HbS) confers strong protection against symptomatic malaria caused by Plasmodium falciparum . Recently, several P. falciparum alleles (termed Pfsa+ ) were found to be enriched in HbS carriers with malaria, suggesting that parasites may be evolving to overcome HbS protection. However, it is unclear whether HbS places selective pressure on parasites since it has little to no effect against asymptomatic parasitemia, which accounts for the majority of infections. Here, we consider the effect of sickle cell status on Pfsa genotype in asymptomatic infections among 2,277 children in a high malaria transmission region of Cameroon. Consistent with previous studies, we found no significant difference in asymptomatic infection rate according to HbS status. However, HbS was strongly associated with parasite genotype at both Pfsa loci tested. Strong linkage disequilibrium and evidence for within-infection competition further support selection for Pfsa+ alleles in HbS carriers. Our findings reveal that distinct parasites underlie the equal infection rates of HbS and non-HbS carriers, such that HbS has a protective effect prior to malaria symptoms against Pfsa− parasites and Pfsa+ alleles may contribute to HbS carriers’ lower conversion rate to symptomatic disease. A revised evolutionary model for HbS protection against malarial disease is needed involving both resistance and tolerance and ongoing co-evolution with P. falciparum parasites.