Naturally Elicited Antibodies to Glycosylphosphatidylinositols (GPIs) of Plasmodium falciparum Require Intact GPI Structures for Binding and Are Directed Primarily …
RS Naik, G Krishnegowda, CF Ockenhouse… - Infection and …, 2006 - Am Soc Microbiol
RS Naik, G Krishnegowda, CF Ockenhouse, DC Gowda
Infection and immunity, 2006•Am Soc MicrobiolImmunization with a synthetic glycan corresponding to Plasmodium falciparum
glycosylphosphatidylinositols (GPIs) has been proposed as a vaccination strategy against
malaria. We investigated the structural requirements for binding of naturally elicited anti-GPI
antibodies to parasite GPIs. The data show that anti-GPI antibody binding requires intact GPI
structures and that the antibodies are directed predominantly against GPIs with a conserved
glycan structure with three mannoses and marginally against the terminal fourth mannose …
glycosylphosphatidylinositols (GPIs) has been proposed as a vaccination strategy against
malaria. We investigated the structural requirements for binding of naturally elicited anti-GPI
antibodies to parasite GPIs. The data show that anti-GPI antibody binding requires intact GPI
structures and that the antibodies are directed predominantly against GPIs with a conserved
glycan structure with three mannoses and marginally against the terminal fourth mannose …
Abstract
Immunization with a synthetic glycan corresponding to Plasmodium falciparum glycosylphosphatidylinositols (GPIs) has been proposed as a vaccination strategy against malaria. We investigated the structural requirements for binding of naturally elicited anti-GPI antibodies to parasite GPIs. The data show that anti-GPI antibody binding requires intact GPI structures and that the antibodies are directed predominantly against GPIs with a conserved glycan structure with three mannoses and marginally against the terminal fourth mannose. The results provide valuable insight for exploiting GPIs for the development of malaria vaccines.
American Society for Microbiology