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ABSTRACT: Three long synthetic peptides corresponding to amino (N), repeat (R) and carboxyl (C) regions of the Plasmodium vivax circumsporozoite (CS) protein were synthesised and used to assess their potential as vaccine candidates. Antigenicity studies were carried out using human blood samples from residents of a malaria-endemic area of Colombia, and immunogenicity was tested in Aotus monkeys. The N and C peptides spanned the total native amino and carboxyl flanking regions, whereas the R peptide corresponded to a construct based on the first central nona-peptide repeated in tandem three times and colinearly linked to a universal T-cell epitope (ptt-30) derived from tetanus toxin. All three peptides had been shown previously to contain several B-, T-helper (Th) and Cytotoxic T Lymphocytes (CTL) epitopes. Sixty-one percent of the human sera reacted with the R region, whereas 35 and 39% of the samples had antibodies against the N and C peptides, respectively. Human Peripheral Blood Mononuclear Cells (PBMC) showed higher levels of IFN-gamma than IL-4 when stimulated with peptides containing Th epitopes. Aotus monkeys immunised with the peptides formulated in either Montanide ISA720 or Freund's adjuvants produced strong antibody responses that recognised the peptide immunogens and the native circumsporozoite protein on sporozoites. Additionally, high IFN-gamma production was induced when Aotus lymphocytes were stimulated in vitro with each of the three peptides. We observed boosting of antibody responses and IFN-gamma production by exposure to live sporozoites. These results confirm the high antigenicity and immunogenicity of such synthetic polypeptides and underline their vaccine potential.
International Journal for Parasitology 01/2005; 34(13-14):1535-46. · 3.39 Impact Factor
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Blanca-Liliana Perlaza,
Constanza Zapata,
Anais Z Valencia, Silvia Hurtado,
Gustavo Quintero,
Jean-Pierre Sauzet,
Karima Brahimi,
Catherine Blanc,
Myriam Arévalo-Herrera,
Pierre Druilhe,
Sócrates Herrera
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ABSTRACT: Three recombinant proteins spanning the Plasmodium falciparum liver-stage Ag-3 (LSA-3) were used to immunize Aotus monkeys. The proteins were delivered subcutaneously without adjuvant, adsorbed onto polystyrene 0.5 microm particles at a concentration of 2 microg per immunization. Control animals received glutathione-S-transferase formulated similarly. Animals were challenged as late as 5 months after the last immunization, by intravenous inoculation of 100,000 P. falciparum sporozoites of a strain heterologous to the one from which the immunogens were derived. Sterile protection was achieved in three of the five immunized monkeys but in none of four controls. Antibodies were at low titer, but reacted with the native parasite protein and were boosted by parasite challenge. Ag-specific IFN-gamma secretion was detectable in all LSA-3-immunized animals in response to the LSA-3-derived Ag. The protection was apparently associated with high levels of IFN-gamma production in response to in vitro recall Ag. These results lend support to the vaccine potential of LSA-3 indicated by previous results obtained in chimpanzees, as well as the value of yet another Ag-delivery system. They also support the value of the Aotus model for the pre-clinical development of pre-erythrocytic-stage vaccines.
European Journal of Immunology 06/2003; 33(5):1321-7. · 5.10 Impact Factor
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ABSTRACT: Aotus lemurinus griseimembra is considered one of the best nonhuman primate species for malarial studies because of its susceptibility to infection by Plasmodium falciparum asexual blood stages. However, reproducible transmission of infective P. falciparum sporozoites by mosquito inoculation has been difficult to achieve even in splenectomized monkeys. Characterization of an Aotus-P. falciparum cyclical transmission model has become a top priority as a result of the significant progress toward the development of preerythrocytic malaria vaccines. Herein, we describe a reproducible model developed using intact A. lemurinus griseimembra monkeys intravenously inoculated with sporozoites from a monkey-adapted P. falciparum (Santa Lucia) strain and a wild Falciparum-Cali-Colombia-4 (FCC-4) strain. Sporozoites were obtained by salivary gland dissection of laboratory-reared Anopheles albimanus mosquitoes. Parasitemia was monitored by thick-smear microscopy, parasite lactate dehydrogenase (pLDH) determination, and mosquito xenodiagnosis. The last method proved to be the most sensitive method for monitoring parasitemias. Infection with the Santa Lucia strain showed a mean prepatent period of 16 days (range 6-21 days), whereas infection with the wild FCC-4 strain resulted in a 24-day prepatent period. Mean peak parasite density was approximately 900 parasites/microliter for both parasite strains. The prepatent period, the peak of parasitemia, and the duration of patency were independent of the size of the sporozoite inoculum and the presence of spleen in the host. This model is being successfully used to test the protective efficacy of P. falciparum preerythrocytic vaccine candidates.
Journal of Parasitology 09/2002; 88(4):723-9. · 1.40 Impact Factor
