Giane A. Oliveira scite author profile

This open-labeled phase I study provides the first demonstration of the immunogenicity of a precisely defined synthetic polyoxime malaria vaccine in volunteers of diverse HLA types. The polyoxime, designated (T1BT*)4-P3C, was constructed by chemoselective ligation, via oxime bonds, of a tetrabranched core with a peptide module containing B cell epitopes and a universal T cell epitope of the Plasmodium falciparum circumsporozoite protein. The triepitope polyoxime malaria vaccine was immunogenic in the absence of any exogenous adjuvant, using instead a core modified with the lipopeptide P3C as an endogenous adjuvant. This totally synthetic vaccine formulation can be characterized by mass spectroscopy, thus enabling the reproducible production of precisely defined vaccines for human use. The majority of the polyoxime-immunized volunteers (7/10) developed high levels of anti-repeat Abs that reacted with the native circumsporozoite on P. falciparum sporozoites. In addition, these seven volunteers all developed T cells specific for the universal epitope, termed T*, which was originally defined using CD4+ T cells from protected volunteers immunized with irradiated P. falciparum sporozoites. The excellent correlation of T*-specific cellular responses with high anti-repeat Ab titers suggests that the T* epitope functioned as a universal Th cell epitope, as predicted by previous peptide/HLA binding assays and by immunogenicity studies in mice of diverse H-2 haplotypes. The current phase I trial suggests that polyoximes may prove useful for the development of highly immunogenic, multicomponent synthetic vaccines for malaria, as well as for other pathogens.

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Synthetic Malaria Peptide Vaccine Elicits High Levels of Antibodies in Vaccinees of Defined HLA Genotypes

Nardin

et al. 2000

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A multiple antigen peptide (MAP) malaria vaccine containing minimal Plasmodium falciparum circumsporozoite protein repeat epitopes was assessed for safety and immunogenicity in volunteers of known class II genotypes. The MAP/alum/QS-21 vaccine formulation elicited high levels of parasite-specific antibodies in 10 of 12 volunteers expressing DQB1*0603, DRB1*0401, or DRB1*1101 class II molecules. In contrast, volunteers of other HLA genotypes were low responders or nonresponders. A second study of 7 volunteers confirmed the correlation of class II genotype and high responder phenotype. This is the first demonstration in humans that a peptide vaccine containing minimal T and B cell epitopes composed of only 5 amino acids (N, A, V, D, and P) can elicit antibody titers comparable to multiple exposures to irradiated P. falciparum-infected mosquitoes. Moreover, the high-responder phenotypes were predicted by analysis of peptide/HLA interactions in vitro, thus facilitating the rational design of epitope-based peptide vaccines for malaria, as well as for other pathogens.

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Cutting Edge: A New Tool to Evaluate Human Pre-Erythrocytic Malaria Vaccines: Rodent Parasites Bearing a HybridPlasmodium falciparumCircumsporozoite Protein

Persson¹,

Oliveira

Sultan³

et al. 2002

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Malaria vaccines containing the Plasmodium falciparum Circumsporozoite protein repeat domain are undergoing human trials. There is no simple method to evaluate the effect of vaccine-induced responses on P. falciparum sporozoite infectivity. Unlike the rodent malaria Plasmodium berghei, P. falciparum sporozoites do not infect common laboratory animals and only develop in vitro in human hepatocyte cultures. We generated a recombinant P. berghei parasite bearing P. falciparum Circumsporozoite protein repeats. These hybrid sporozoites are fully infective in vivo and in vitro. Monoclonal and polyclonal Abs to P. falciparum repeats neutralize hybrid parasite infectivity, and mice immunized with a P. falciparum vaccine are protected against challenge with hybrid sporozoites.

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Quantitative Plasmodium sporozoite neutralization assay (TSNA)

Kumar

Oliveira

Edelman

et al. 2004

Journal of Immunological Methods

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Safety and Enhanced Immunogenicity of a Hepatitis B Core ParticlePlasmodium falciparumMalaria Vaccine Formulated in Adjuvant Montanide ISA 720 in a Phase I Trial

Oliveira

Wetzel²,

Calvo‐Calle

et al. 2005

Infect Immun

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Highly purified subunit vaccines require potent adjuvants in order to elicit optimal immune responses. In a previous phase I trial, an alum formulation of ICC-1132, a malaria vaccine candidate comprising hepatitis B core (HBc) virus-like particle containing Plasmodium falciparum circumsporozoite (CS) protein epitopes, was shown to elicit Plasmodium falciparum-specific antibody and cellular responses.

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Giane A. Oliveira

A Totally Synthetic Polyoxime Malaria Vaccine Containing Plasmodium falciparum B Cell and Universal T Cell Epitopes Elicits Immune Responses in Volunteers of Diverse HLA Types

Synthetic Malaria Peptide Vaccine Elicits High Levels of Antibodies in Vaccinees of Defined HLA Genotypes

Cutting Edge: A New Tool to Evaluate Human Pre-Erythrocytic Malaria Vaccines: Rodent Parasites Bearing a HybridPlasmodium falciparumCircumsporozoite Protein

Quantitative Plasmodium sporozoite neutralization assay (TSNA)

Safety and Enhanced Immunogenicity of a Hepatitis B Core ParticlePlasmodium falciparumMalaria Vaccine Formulated in Adjuvant Montanide ISA 720 in a Phase I Trial

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