Plasmodium falciparumGenotypes, Low Complexity of Infection, and Resistance to Subsequent Malaria in Participants in the Asembo Bay Cohort Project

Abstract

To assess the relationship between the within-host diversity of malaria infections and the susceptibility of the host to subsequent infection, we genotyped 60 children's successive infections from birth through 3 years of life. MSP-1 Block2 genotypes were used to estimate the complexity of infection (COI). Malaria transmission and age were positively associated with the number of K1 and Mad20 alleles detected (COI_KM) (P< 0.003). Controlling for previous parasitemia, transmission, drug treatment, parasite density, sickle cell, and age, COI_KMwas negatively correlated with resistance to parasitemia of >500/μl (P< 0.0001). Parasitemias with the RO-genotype were more resistant than those without this genotype (P< 0.0000). The resistance in low COI_KMinfections was not genotype specific. We discuss the impact of genotype-transcending immunity to conserved antigenic determinants. We also propose a diversity-driven immunomodulation hypothesis that may explain the delayed development of natural immunity in the first few years of life and suggest that interventions that decrease the COI_KMcould facilitate the development of protective immunity.