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Merck
  • Toward the rational design of a malaria vaccine construct using the MSP3 family as an example: contribution of antigenicity studies in humans.

Toward the rational design of a malaria vaccine construct using the MSP3 family as an example: contribution of antigenicity studies in humans.

Infection and immunity (2009-11-04)
Corine G Demanga, Lena-Juliette Daher, Eric Prieur, Catherine Blanc, Jean-Louis Pérignon, Hasnaa Bouharoun-Tayoun, Pierre Druilhe
ABSTRAKT

Plasmodium falciparum merozoite surface protein (MSP3) is a main target of protective immunity against malaria that is currently undergoing vaccine development. It was shown recently to belong, together with MSP6, to a new multigene family whose C-terminal regions have a similar organization, contain both homologous and divergent regions, and are highly conserved across isolates. In an attempt to rationally design novel vaccine constructs, we extended the analysis of antigenicity and function of region-specific antibodies, previously performed with MSP3 and MSP6, to the remaining four proteins of the MSP3 family using four recombinant proteins and 24 synthetic peptides. Antibodies to each MSP3 family antigen were found to be highly prevalent among malaria-exposed individuals from the village of Dielmo (Senegal). Each of the 24 peptides was antigenic, defining at least one epitope mimicking that of the native proteins, with a distinct IgG isotype pattern for each, although with an overall predominance of the IgG3 subclass. Human antibodies affinity purified upon each of the 24 peptides exerted an antiparasite antibody-dependent cellular inhibition effect, which in most cases was as strong as that of IgG from protected African adults. The two regions with high homology were found to generate a broad network of cross-reactive antibodies with various avidities. A first multigenic construct was designed using these findings and those from related immunogenicity studies in mice and demonstrated valuable immunological properties. These results indicate that numerous regions from the MSP3 family play a role in protection and provide a rationale for the tailoring of new MSP3-derived malaria vaccines.

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Sigma-Aldrich
Mouse Anti-Human IgG2 Antibody, clone HP6002, Fc, clone HP6002, Chemicon®, from mouse