UMLS:C0024530 - FACTA Search

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Query: UMLS:C0024530 (malaria)
44,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A blood-stage malaria antigen comprising the C terminus of merozoite surface protein 1 fused to glutathione S-transferase, combined with an adjuvant formulation containing squalane, Tween 80, and pluronic L121 (AF), administered subcutaneously protected mice against death from a lethal Plasmodium yoelii infection. The protection induced by this antigen-adjuvant combination was compared with that induced by the antigen plus saponin in terms of survival from the lethal infection and clearance of parasitemia. The levels of gamma interferon and interleukin-4 in spleens were measured as indicators of Th1 and Th2 cell activation, and antibody classes and subclasses were determined by immunofluorescence. With a 10-micrograms dose of antigen and AF as adjuvant, all mice recovered, but with saponin as the adjuvant, there were only a few survivors. With 30 micrograms of antigen plus AF, the peak parasitemias were 10-fold lower than those with 10 micrograms; with saponin, survival was slightly improved. The levels of both gamma interferon and interleukin-4 rose more rapidly and to higher levels with AF as the adjuvant than with saponin, and the same was true for immunoglobulin G1 (IgG1), IgG2a, and IgG2b subclasses. Thus, in terms of both cytokine production and antibody levels, AF is a more potent adjuvant for a malaria vaccine than is saponin.
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PMID:Cytokines and antibody subclass associated with protective immunity against blood-stage malaria in mice vaccinated with the C terminus of merozoite surface protein 1 plus a novel adjuvant. 875 95

After the first in vitro cultivation of Plasmodium falciparum 21 years ago, the prospect of anti-malarial vaccination arose many hopes, but, in the end, it so far has mainly given rise to doubts and disappointments. Technically, the problem is particularly difficult. Plasmodium falciparum has a very complex antigenic structure with several hundreds, if not several thousands, of different epitopes for each of the four main evolutive stages of the parasite (sporozoites, merozoites, gametocytes, ookinetes) which correspond to different phase of the infection and could be a target for vaccination. Many of these epitopes are stage-specific and some of them vary from one strain to another. Adjuvants also play a major role and can qualitatively modify the type of immune response. The immune mechanisms also differ according to the final goal: anti-Plasmodium infection or anti-disease vaccine. Over the last few years, the first clinical assays have been carried out with the Spf66 vaccine, a synthetic complex protein directed against sporozoites and merozoites. In adults and children, the first results in South America and in East Africa were modest but encouraging. Unfortunately they were not confirmed by further studies in West Africa and South-East Asia. Two new types of vaccines are under preliminary clinical evaluation. One is directed against ookinetes of Plasmodium falciparum (Pfs25 and Pfs28) and can stop the transmission from the mosquito. The other is an anti-sporozoite vaccine with a new immunogen (RTS,S) in which the circumsporozoite protein is fused to the hepatitis B surface antigen and can protect against infestation. New prospects and improvements are offered by the technique of DNA vaccines and will probably also result from better knowledge of cellular and molecular biology of the parasite which is being extensively studied (genomic structure). If new promising perspectives exist, it is particularly important to be careful to avoid such disappointments as those caused, in the past, by a too-optimistic and over-publicized presentation of some preliminary results. It is now certain that one or several malaria-vaccines will be available, but no one can seriously say when, for whom and how. In any case, it is unrealistic to hope that vaccine(s) alone will be able to eradicate such an epidemiologically complex disease as malaria. It is probable that only the coordinated use of all the techniques available (anti-vectorial protection and fight, chemoprophylaxis and chemotherapy, vaccination) will lead to success.
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PMID:[Vaccination against malaria. Disappointments and hopes]. 955 23

Using malaria as a model disease, we engineered the surface of tobacco mosaic tobamovirus (TMV) for presentation of selected epitopes to the mammalian immune system. The TMV coat protein is a well-characterized and abundant self-assembling polymer previously shown to be a highly immunogenic carrier. Selected B-cell epitopes were either inserted into the surface loop region of the TMV coat protein or fused to the C terminus using the leaky stop signal derived from the replicase protein reading frame. Tobacco plants systemically infected with each of these constructs contained high titers of genetically stable recombinant virus, enabling purification of the chimeric particles in high yield. Symptoms induced in tobacco ranged from a normal mosaic pattern similar to that induced by the parental U1 strain to a unique bright yellow mosaic. As measured by quantitative ELISA against synthetic peptide standards, wild type TMV coat protein and fusion protein synthesized by the leaky stop mechanism coassembled into virus particles at the predicted ratio of approximately 20:1. Recombinant plant viruses have the potential to meet the need for scalable and cost effective production of subunit vaccines that can be easily stored and administered.
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PMID:Malarial epitopes expressed on the surface of recombinant tobacco mosaic virus. 963 49

A new general strategy for the production of recombinant protein immunogens has been investigated. The rationale involves the production of a recombinant immunogen as fused to a composite tag comprising one domain suitable for affinity purification and a hydrophobic tag designed for direct incorporation through hydrophobic interaction of the affinity-purified immunogen into an adjuvant system, in this case immunostimulating complexes (iscoms). Three different hydrophobic tags were evaluated: (i) a tag denoted IW containing stretches of hydrophobic isoleucine (I) and tryptophan (W) residues; (ii) a tag denoted MI consisting of the transmembrane region of hemagglutinin from influenza A virus; and (iii) a tag denoted PD designed to be pH-dependent in such a way that an amphiphatic alpha-helix would be formed at low pH. As an affinity tag, an IgG-binding domain Z derived from Staphylococcus aureus protein A (SpA) was used, and a malaria peptide M5, derived from the central repeat region of the Plasmodium falciparum blood-stage antigen Pf155/RESA, served as a model immunogen in this study. Three different fusion proteins, IW-Z-M5, MI-Z-M5 and PD-Z-M5, were produced in Escherichia coli, and after affinity purification these were evaluated in iscom-incorporation experiments. Two of the fusion proteins, IW-Z-M5 and MI-Z-M5 were found in the iscom fraction following preparative ultracentrifugation, indicating iscom incorporation. This was further supported by electron microscopy analysis showing that iscoms were formed. Furthermore, these iscom preparations were demonstrated to induce efficient M5-specific antibody responses upon immunization of mice, confirming successful incorporation into iscoms. The implications of these results for the design and production of subunit vaccines are discussed.
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PMID:General expression vectors for production of hydrophobically tagged immunogens for direct iscom incorporation. 1002 83

The ring-infected erythrocyte surface antigen (RESA) is a dense-granule protein of Plasmodium falciparum which binds to the cytoskeletal structure of the erythrocyte after parasite invasion. It is currently under trial as a vaccine candidate. In an effort to characterize further the antibody responses to this antigen, we have panned two independent libraries of random peptides expressed on the surface of filamentous phage with a monoclonal antibody (MAb 18/2) against RESA. One library consisted of a potentially constrained 17-mer peptide fused with the gpVIII phage coat protein, and the other displayed an unconstrained 15-mer as a fusion with the minor phage coat protein gpIII. Several rounds of biopanning resulted in enrichment from both libraries clones that interacted specifically with MAb 18/2 in protein-blotting and enzyme-linked immunosorbent assay experiments. Nucleotide sequencing of the random oligonucleotide insert revealed a common predominant motif: (S/T)AVDD. Several other clones had related but degenerate motifs. Thus, a monoclonal antibody against a malarial antigen can select common mimotopes from different random peptide libraries. We envisage many uses for this technology in malaria research.
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PMID:Isolation of peptides that mimic epitopes on a malarial antigen from random peptide libraries displayed on phage. 1045 16

Plasmodium vivax is responsible for an approximate 35 million yearly human cases of malaria. Unfortunately, due to the low mortality rate associated with it and the difficulties of continuously in vitro culturing of this parasite, vaccine development against this human malaria has been largely neglected. In here, the antigenic properties of the merozoite surface protein 1 gene of P. vivax (PvMSP-1), were studied. Thus, seven recombinant bacterial plasmids coding different regions of the PvMSP-1 protein were constructed and used to immunize BALB/c mice. The results demonstrated that a plasmid encoding the entire N-terminus comprising 682 amino acids and a plasmid encoding the C-terminus including the two juxtaposed epidermal growth factor (EGF)-like domains fused to the Hepatitis B surface antigen, were antigenic. Moreover, the elicited immune responses were similar to those reported for these same PvMSP-1 regions in natural human infections.
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PMID:Antigenic properties of the merozoite surface protein 1 gene of Plasmodium vivax. 1046 30

Plasmodium vivax is the second most common agent of human malaria. Although infection is rarely fatal, it nonetheless imposes a significant burden of illness in endemic areas. A successful vaccine against P. vivax will likely need to induce immune responses against both pre-erythrocytic and erythrocytic stage forms of the parasite. Accordingly, we constructed eight nucleic acid vaccines based on four antigens, the circumsporozoite protein (PvCSP) and sporozoite surface protein 2 (PvSSP2) from the pre-erythrocytic stage, and apical membrane antigen 1 (PvAMA1) and merozoite surface protein 1 (PvMSP1) from the erythrocytic stage. The constructs induced high levels of specific antibody in mice regardless of whether the antigen was expressed in native form or fused to a human tissue plasminogen activator leader peptide. High titer antibodies induced against PvCSP did not react with the protective AGDR epitope within the sequence of this antigen. These results support the immunogenicity of these four vaccine candidate antigens when delivered as nucleic acid vaccines.
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PMID:Construction and immunogenicity of DNA vaccine plasmids encoding four Plasmodium vivax candidate vaccine antigens. 1046 50

The safety and immunogenicity of 2 yeast-derived, blood-stage malaria vaccines were evaluated in a phase l trial. Healthy adults were given 2 or 3 doses of alum-adsorbed vaccine containing the 19 kDa carboxy-terminal fragment of the merozoite surface protein-1 (MSP-1(19)) derived from the 3D7 or the FVO strain of Plasmodium falciparum fused to tetanus toxoid T-helper epitopes P30 and P2. The first 2 doses of MSP-1(19) were well tolerated. Hypersensitivity reactions occurred in 3 subjects after the third dose of MSP-1(19), including bilateral injection site reactions in 2 (one with generalized skin rash), and probable histamine-associated hypotension in 1. Serum antibody responses to MSP-1(19) occurred in 5/16, 9/16 and 0/8 subjects given 20 microg of MSP-1(19), 200 microg of MSP-1(19), and control vaccines (hepatitis B or Td), respectively. Both MSP-1(19) vaccines were immunogenic in humans, but changes in formulation will be necessary to improve safety and immunogenicity profiles.
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PMID:Phase I trial of two recombinant vaccines containing the 19kd carboxy terminal fragment of Plasmodium falciparum merozoite surface protein 1 (msp-1(19)) and T helper epitopes of tetanus toxoid. 1051 44

Invasion of erythrocytes by malaria parasites is mediated by specific molecular interactions. Whereas Plasmodium vivax and Plasmodium knowlesi use the Duffy blood group antigen, Plasmodium falciparum uses sialic acid residues of glycophorin A as receptors to invade human erythrocytes. P. knowlesi uses the Duffy antigen as well as other receptors to invade rhesus erythrocytes by multiple pathways. Parasite ligands that bind these receptors belong to a family of erythrocyte-binding proteins (EBP). The EBP family includes the P. vivax and P. knowlesi Duffy-binding proteins, P. knowlesi beta and gamma proteins, which bind alternate receptors on rhesus erythrocytes, and P. falciparum erythrocyte-binding antigen (EBA-175), which binds sialic acid residues of human glycophorin A. Binding domains of each EBP lie in a conserved N-terminal cysteine-rich region, region II, which contains around 330 amino acids with 12 to 14 conserved cysteines. Regions containing binding residues have now been mapped within P. vivax and P. knowlesi beta region II. Chimeric domains containing P. vivax region II sequences fused to P. knowlesi beta region II sequences were expressed on the surface of COS cells and tested for binding to erythrocytes. Binding residues of P. vivax region II lie in a 170-aa stretch between cysteines 4 and 7, and binding residues of P. knowlesi beta region II lie in a 53-aa stretch between cysteines 4 and 5. Mapping regions responsible for receptor recognition is an important step toward understanding the structural basis for the interaction of these parasite ligands with host receptors.
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PMID:Mapping regions containing binding residues within functional domains of Plasmodium vivax and Plasmodium knowlesi erythrocyte-binding proteins. 1057 Jan 99

Protection against a lethal challenge infection of Plasmodium falciparum was elicited in malaria-naive Aotus vociferans monkeys by vaccination with the C terminus 19-kDa protein of the major merozoite surface protein (MSP-1(19)) fused to tetanus toxoid universal T-cell epitopes P30 and P2. Three of four monkeys were protected against a 10(4)-parasite challenge. Four monkeys were challenged with 10(5) parasites; one self-cured the infection, two were protected against high parasitemia (<2%) but were treated for severe anemia (hematocrit of <25%), and the fourth was not protected. In this model system, anemia appears to be a manifestation of incomplete protection (prolonged low-level parasitemia). Enzyme-linked immunosorbent assay (ELISA) antibody titers correlated with protection. Antibodies from some protected monkeys inhibited secondary processing of MSP-1(42) to MSP-1(33) and MSP-1(19). To mimic the repeated reinfections seen in regions where malaria is endemic, a second malaria parasite challenge was administered 4 months later. All P30P2MSP-1(19)-vaccinated monkeys were protected; thus, a single challenge infection may underestimate vaccine efficacy. ELISA antibody titers correlated with protection against a second infection but had decreased compared to the first challenge. As most target populations for asexual blood-stage malaria vaccines will have been exposed to malaria parasites, a malaria parasite-exposed monkey was vaccinated with P30P2MSP-1(19). This monkey was completely protected, while a malaria parasite-naive P30P2MSP-1(19)-vaccinated monkey self-cured a low-grade parasitemia. Prior malaria parasite infection primed the production of anti-native MSP-1(19) antibodies, which were boosted by vaccination with recombinant P30P2MSP-1(19). Preliminary data suggest that immunogenicity studies of vaccines designed for malaria parasite-exposed populations should also be conducted in malaria parasite-exposed subjects.
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PMID:Vaccine efficacy of recombinant Plasmodium falciparum merozoite surface protein 1 in malaria-naive, -exposed, and/or -rechallenged Aotus vociferans monkeys. 1067 55

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