Mannosylated liposomes formulated with whole parasite P. falciparum blood-stage antigens are highly immunogenic in mice

2019 
Abstract The development of a blood-stage malaria vaccine has largely focused on the subunit approach. However, the limited success of this strategy, mainly due to antigenic polymorphism and the failure to maintain potent parasite-specific immune responses, indicates that other approaches must be considered. Whole parasite (WP) vaccines offer many advantages over sub-units; they represent every antigen on the organism, thus limiting the effects of antigenic polymorphism, and similarly they compensate for individual Immune-Response (Ir) gene-regulated non-responsiveness to any particular antigen. From a development perspective, they negate the need to identify and compare the relative efficacies of individual candidate antigens. WP vaccines induce protective immunity that is largely cell-mediated. However, WP blood-stage vaccines present a number of challenges for the development pathway. Key issues are cryopreservation and storage and the possible induction of antibodies against red blood cell surface antigens, even if the parasites are grown in blood group O, Rh negative blood. Here, we used a novel adaptation of an immunomagnetic method from STEMCELL™ Technologies to remove the red cell membranes from human red blood cells parasitized with P. falciparum. We then used these antigens to construct liposomes which were modified to present mannose on their membrane to target the liposome to antigen presenting cells. We then compared the immunogenicity of freshly prepared and lyophilized liposome vaccines. Following vaccination of mice, liposomes induced significantly lower antibody responses to human red cells but potent strain- and species-transcending cell-mediated immune responses to parasite antigens. These data support transitioning the P. falciparum liposomal vaccine into clinical studies.
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