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Boyle, Michelle J.; Reiling, Linda; Feng, Gaoqian; Langer, Christine; Osier, Faith H.; Aspeling-Jones, Harvey; Cheng, Yik Sheng; Stubbs, Janine; Tetteh, Kevin K.A.; Conway, David J.; McCarthy, James S.; Muller, Ivo; Marsh, Kevin; Anders, Robin F.; Beeson, James G.
Immunity (Cambridge, Mass.), 03/2015, Volume: 42, Issue: 3Journal Article
Antibodies play major roles in immunity to malaria; however, a limited understanding of mechanisms mediating protection is a major barrier to vaccine development. We have demonstrated that acquired human anti-malarial antibodies promote complement deposition on the merozoite to mediate inhibition of erythrocyte invasion through C1q fixation and activation of the classical complement pathway. Antibody-mediated complement-dependent (Ab-C′) inhibition was the predominant invasion-inhibitory activity of human antibodies; most antibodies were non-inhibitory without complement. Inhibitory activity was mediated predominately via C1q fixation, and merozoite surface proteins 1 and 2 were identified as major targets. Complement fixation by antibodies was very strongly associated with protection from both clinical malaria and high-density parasitemia in a prospective longitudinal study of children. Ab-C′ inhibitory activity could be induced by human immunization with a candidate merozoite surface-protein vaccine. Our findings demonstrate that human anti-malarial antibodies have evolved to function by fixing complement for potent invasion-inhibitory activity and protective immunity. Display omitted •Antibodies function with complement to inhibit P. falciparum replication•Antibodies fix C1q to block invasion and lyse merozoites•Complement-fixing antibodies are strongly associated with immunity in children•Antibody-complement inhibition can be induced by human vaccination Antibodies are important in immunity to malaria, but their protective function has been unclear. Boyle and colleagues report that acquired and vaccine-induced human antibodies recruit complement to block infection of erythrocytes and blood-stage replication of Plasmodium falciparum.
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