Abstract
The development of modular constructs that include antigenic regions targeted by protective immune responses is an attractive approach for subunit vaccine development. However, a main concern of using these vaccine platforms is how to preserve the antigenic identity of conformational B cell epitopes. In the present study we evaluated naturally acquired antibody responses to a chimeric protein engineered to contain a previously defined immunodominant domain of the Plasmodium vivax reticulocyte binding protein-1 located between amino acid positions K435-I777. The construct also includes three regions of the cognate protein (F571-D587, I1745-S1786 and L2235-E2263) predicted to contain MHC class II promiscuous T cell epitopes. Plasma samples from 253 naturally exposed individuals were tested against this chimeric protein named PvRMC-RBP1 and a control protein that includes the native sequence PvRBP123-751 in comparative experiments to study the frequency of total IgG and IgG subclass reactivity. HLA-DRB1 and HLA-DQB1 allelic groups were typed by PCR-SSO to evaluate the association between major HLA class II alleles and antibody responses. We found IgG antibodies that recognized the chimeric PvRMC-RBP1 and the PvRBP123-751 in 47.1% and 60% of the studied population, respectively. Moreover, the reactivity index against both proteins were comparable and associated with time of exposure (p<0.0001) and number of previous malaria episodes (p<0.005). IgG subclass profile showed a predominance of cytophilic IgG1 over other subclasses against both proteins tested. Collectively these studies suggest that the chimeric PvRMC-RBP1 protein retained antigenic determinants in the PvRBP1435–777 native sequence. Although 52.9% of the population did not present detectable titers of antibodies to PvRMC-RBP1, genetic restriction to this chimeric protein does not seem to occur, since no association was observed between the HLA-DRB1* or HLA-DQB1* alleles and the antibody responses. This experimental evidence strongly suggests that the identity of the conformational B cell epitopes is preserved in the chimeric protein.
Highlights
Malaria is the most relevant parasitic disease and a leading cause of mortality in developing countries
PvRMC-RBP1 was significantly higher than IgG2 (p,0.0001), IgG3 (p,0.0001) and IgG4 (p,0.0001) by Mann Whitney test. + The median of reactivity index of IgG1 to PvRBP123-751 was significantly higher than IgG2 (p,0.0001), IgG3 (p,0.0001) and IgG4 (p,0.0001) by Mann Whitney test. doi:10.1371/journal.pone.0105828.g004
We predicted promiscuous T helper epitopes in P. vivax Reticulocyte Binding Protein-1 (PvRBP1), validated their ability to elicit T cell responses in mice and generated a synthetic gene encoding such promiscuous T helper epitopes genetically linked to the sequence of the PvRBP1435-777 domain
Summary
Malaria is the most relevant parasitic disease and a leading cause of mortality in developing countries. The enormous progress in the implementation of malaria control measures accounts for a 45% reduction in mortality rates in the past 12 years due to their impact on Plasmodium falciparum malaria. These measures include long-lasting insecticidal nets (LLIN), indoor residual spraying programs (IRS) and artemisinbased combination therapy (ACT) [1]. In the light of the epidemiological evidence of high morbidity, parasite drug resistance, high prevalence of severe malaria and mortality, the old concept that P. vivax infections are clinically ‘‘benign’’ is not currently accepted. It is imperative to develop novel strategies for malaria control including vaccines
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