Host-mediated selection impacts the diversity of Plasmodium falciparum antigens within infections
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Publication Date
2018Author
ngela M Early, Marc Lievens, Bronwyn L MacInnis, Christian F Ockenhouse, Sarah K Volkman, Samuel Adjei, Tsiri Agbenyega, Daniel Ansong, Stacey Gondi, Brian Greenwood, Mary Hamel, Chris Odero, Kephas Otieno, Walter Otieno, Seth Owusu-Agyei, Kwaku Poku Asante, Hermann Sorgho, Lucas Tina, Halidou Tinto, Innocent Valea, Dyann F Wirth, Daniel E Neafsey
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Host immunity exerts strong selective pressure on pathogens. Population-level genetic analysis can identify signatures of this selection, but these signatures reflect the net selective effect of all hosts and vectors in a population. In contrast, analysis of pathogen diversity within hosts provides information on individual, host-specific selection pressures. Here, we combine these complementary approaches in an analysis of the malaria parasite Plasmodium falciparum using haplotype sequences from thousands of natural infections in sub-Saharan Africa. We find that parasite genotypes show preferential clustering within multi-strain infections in young children, and identify individual amino acid positions that may contribute to strain-specific immunity. Our results demonstrate that natural host defenses to P. falciparum act in an allele-specific manner to block specific parasite haplotypes from establishing blood-stage infections. This selection partially explains the extreme amino acid diversity of many parasite antigens and suggests that vaccines targeting such proteins should account for allele-specific immunity.