Platform for Plasmodium vivax vaccine discovery and development

Plasmodium vivax is the most prevalent malaria parasite on the American continent. It generates a global burden of 80-100 million cases annually and represents a tremendous public health problem, particularly in the American and Asian continents. A malaria vaccine would be considered the most cost-effective measure against this vector-borne disease and it would contribute to a reduction in malaria cases and to eventual eradication. Although significant progress has been achieved in the search for Plasmodium falciparum antigens that could be used in a vaccine, limited progress has been made in the search for P. vivax components that might be eligible for vaccine development. This is primarily due to the lack of in vitro cultures to serve as an antigen source and to inadequate funding. While the most advanced P. falciparum vaccine candidate is currently being tested in Phase III trials in Africa, the most advanced P. vivax candidates have only advanced to Phase I trials. Herein, we describe the overall strategy and progress in P. vivax vaccine research, from antigen discovery to preclinical and clinical development and we discuss the regional potential of Latin America to develop a comprehensive platform for vaccine development

Platform for Plasmodium vivax vaccine discovery and development

Plasmodium vivax is the most prevalent malaria parasite on the American continent. It generates a global burden of 80-100 million cases annually and represents a tremendous public health problem, particularly in the American and Asian continents. A malaria vaccine would be considered the most cost-effective measure against this vector-borne disease and it would contribute to a reduction in malaria cases and to eventual eradication. Although significant progress has been achieved in the search for Plasmodium falciparum antigens that could be used in a vaccine, limited progress has been made in the search for P. vivax components that might be eligible for vaccine development. This is primarily due to the lack of in vitro cultures to serve as an antigen source and to inadequate funding. While the most advanced P. falciparum vaccine candidate is currently being tested in Phase III trials in Africa, the most advanced P. vivax candidates have only advanced to Phase I trials. Herein, we describe the overall strategy and progress in P. vivax vaccine research, from antigen discovery to preclinical and clinical development and we discuss the regional potential of Latin America to develop a comprehensive platform for vaccine development

Epidemiology and control of malaria in Colombia

Malaria is currently one of the most serious public health problems in Colombia with an endemic/epidemic transmission pattern that has maintained endemic levels and an average of 105,000 annual clinical cases being reported over the last five years. Plasmodium vivax accounts for approximately 70% of reported cases with the remainder attributed almost exclusively to Plasmodium falciparum. A limited number of severe and complicated cases have resulted in mortality, which is a downward trend that has been maintained over the last few years. More than 90% of the malaria cases in Colombia are confined to 70 municipalities (about 7% of the total municipalities of Colombia), with high predominance (85%) in rural areas. The purpose of this paper is to review the progress of malaria-eradication activities and control measures over the past century within the eco-epidemiologic context of malaria transmission together with official consolidated morbidity and mortality reports. This review may contribute to the formulation of new antimalarial strategies and policies intended to achieve malaria elimination/eradication in Colombia and in the region

Malaria-related anaemia: a Latin American perspective

Malaria is the most important parasitic disease worldwide, responsible for an estimated 225 million clinical cases each year. It mainly affects children, pregnant women and non-immune adults who frequently die victims of cerebral manifestations and anaemia. Although the contribution of the American continent to the global malaria burden is only around 1.2 million clinical cases annually, there are 170 million inhabitants living at risk of malaria transmission in this region. On the African continent, where Plasmodium falciparum is the most prevalent human malaria parasite, anaemia is responsible for about half of the malaria-related deaths. Conversely, in Latin America (LA), malaria-related anaemia appears to be uncommon, though there is a limited knowledge about its real prevalence. This may be partially explained by several factors, including that the overall malaria burden in LA is significantly lower than that of Africa, that Plasmodium vivax , the predominant Plasmodium species in the region, appears to display a different clinical spectrus and most likely because better health services in LA prevent the development of severe malaria cases. With the aim of contributing to the understanding of the real importance of malaria-related anaemia in LA, we discuss here a revision of the available literature on the subject and the usefulness of experimental animal models, including New World monkeys, particularly for the study of the mechanisms involved in the pathogenesis of malaria

Use of long synthetic peptides to study the antigenicity and immunogenicity of the plasmodium vivax circumsporozoite protein

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

Identification of HLA-A2 restricted CD8+ T-lymphocyte responses to Plasmodium vivax circumsporozoite protein in individuals naturally exposed to malaria

Specific CD8− T-lymphocyte (CTL) activity against Plasmodium pre-erythrocytic stages (P-ES) derived antigens is considered one of the most important mechanisms for malaria protection. Plasmodium vivax is the second most prevalent human malaria parasite species distributed worldwide. Although several CTL epitopes have been identified in Plasmodium falciparum P-ES derived antigens, none has been described for P. vivax to date. In this study, we analysed HLA-A*0201 specific CD8− T-lymphocyte responses to the P. vivax circumsporozoite (CS) protein in both malaria exposed and non-exposed populations from the Colombian Pacific Coast. First, we analysed the prevalence of HLA-A2 allele in the study populations and found that approximately 38% of the individuals expressed this molecule and that 50% of them were HLA-A*0201. We then selected, on the P. vivax CS, five peptide sequences containing the HLA-A*0201 binding motifs and used the corresponding synthetic peptides to evaluate the CD8− T-lymphocyte interferon (IFN)-γ response. Peripheral blood mononuclear cells from the HLA-A*0201 donors were in vitro stimulated with these peptides and IFN-γ production was determined by an ELISPOT assay. Specific CD8− T-lymphocyte responses were detected for three peptides located in the C-terminal region of the protein. Specific responses to these peptides were also detected in several individuals expressing different HLA-A*02 subtypes. The potential of these peptides to induce specific cytolysis and that of long synthetic peptides comprising these epitopes as P. vivax malaria vaccine subunits are being studied

Proceso para el desarrollo de una vacuna contra la fase hepática de Plasmodium vivax

Introducción: Anualmente se producen en el mundo entre 80 y 100 millones de casos de malaria ocasionada por Plasmodium vivax, segunda especie de Plasmodium en importancia a nivel mundial y primera en el continente americano. Ante la falla de los métodos clásicos de control de la malaria, derivada de la creciente resistencia de los mosquitos a los insecticidas y de los parásitos a los medicamentos disponibles, se ha trabajado intensamente en la búsqueda de vacunas que puedan prevenir completamente la infección o limitar los efectos patológicos de la enfermedad. Objetivos: Este trabajo describe el proceso de desarrollo de una vacuna experimental dirigida contra las formas pre-eritrocíticas del parásito, para lo cual se ha seleccionado la proteína circumesporozoito (CS) que se expresa de forma abundante en la superficie del parásito y que se halla comprometida en el proceso de invasión hepática. Metodología: El proceso consistió en una exhaustiva caracterización inmunológica de la proteína, mediante péptidos sintéticos de diferente longitud, seguida de pruebas de toxicidad e inmunogenicidad en animales con los tres péptidos largos que cubren las regiones N, R y C de la CS. Como etapa inicial de la prueba en humanos, se hizo un ensayo clínico fase I que probó la seguridad e inmunogenicidad, de cada uno de los péptidos formulados en el adyuvante Montanide ISA-720. El ensayo fue al azar, doble ciego y comprometió a 23 voluntarios sanos, hombres y mujeres entre 18 y 33 años de edad, sin historia de malaria. Conclusiones: La vacuna fue muy bien tolerada y demostró buena seguridad e inmunogenicidad en los ensayos preclínicos así como en todos los voluntarios, facilitando el avance a ulteriores fases de investigación clínica. Introduction: Plasmodium vivax causes approximately 80-100 million clinical cases every year. It is the most prevalent human malaria parasite in the American continent and its prevalence is second only to P. falciparum worldwide. Due to the emergence of medication-resistant parasites and an increase in insecticide-resistant mosquitoes, research to find a vaccine that could prevent or limit the clinical manifestations of the disease has increased greatly. During the last two decades, significant progress has been achieved in this attempt; however, the development of a P. vivax vaccine has been hampered due to the lack of sustainable in vitro parasite cultures. Objectives: We describe the development and testing of a vaccine to P. vivax pre-erythrocytic stages. We selected the circumsporozoite (CS) protein, an antigen abundantly expressed on the parasite surface. Methodology: After extensive immunological characterization in vitro, three long peptides (N, R and C) were synthesized, and the toxicity and immunogenicity of these peptides were thoroughly assessed in animals. To determine the safety and immunogenicity in humans, a randomized, double blind clinical trial was conducted. The trial included 23 healthy volunteers who received 100 μg of N, R and C of each peptide formulated in Montanide ISA-720 adjuvant. Conclusions: The vaccination was well tolerated and proven to be safe in both animals and volunteers; thus, additional clinical trials utilizing this vaccine candidate are indicated