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)

Human antibodies to the block 2 region of Plasmodium falciparum merozoite surface protein 1 (MSP1) are associated with a reduced prospective risk of clinical malaria. Block 2 is highly polymorphic, but all known alleles can be grouped into three major types. Two of these types (the K1-like and MAD20-like types) contain type-specific sequences (found in all alleles of a particular type) that flank polymorphic tripeptide repeats. These repeats contain both type-specific and subtype-specific sequences. To evaluate the antibody recognition of these parts of block 2, a new panel of six recombinant proteins was used (fused type-specific flanking sequences and two representative repeat sequences for each of the K1-like and MAD20-like types separately). Extensive testing of these antigens and full-length block 2 antigens showed that human serum immunoglobulin G antibodies induced by infection can recognize (i) type-specific epitopes in the repeats, (ii) subtype-specific epitopes in the repeats, or (iii) type-specific epitopes in flanking sequences. A large prospective study in The Gambia showed that antibodies to the repeats are strongly associated with protection from clinical malaria. The results are important for design of a vaccine to induce protective antibodies, and they address hypotheses about repeat sequences in malaria antigens.
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PMID:Repeat sequences in block 2 of Plasmodium falciparum merozoite surface protein 1 are targets of antibodies associated with protection from malaria. 1265 98

Plasmodium falciparum chimeric protein 2 (PfCP-2), fused by erythrocytic stage antigens, AMA-1(III) and MSP1-19, is a potential vaccine candidate against malaria. However, the two-band pattern of this protein product in SDS-PAGE has some negative influence for the application of it for clinical tests. N-terminal sequence analysis of the product showed that the doublet had different N-terminus, with 9 amino acid deletion in the band with low molecular weight. Therefore, the gene was modified to generate a new construct, named PfCP-2.9, which was lack of these 9 residues at its N-terminus. Expression of PfCP-2.9 produced only one band. Moreover, the new construct was as same as the original product in the level of expression, conformation dependence on the disulfide bond, immunogenicity and inhibitory effect on the parasite growth in vitro.
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PMID:[Influence of deleting 9 amino acid residues at N-terminus on immunogenicity of a Plasmodium falciparum chimeric protein]. 1267 88

The C-terminal region (cA) of the major autolysin AcmA of Lactococcus lactis contains three highly similar repeated regions of 45 amino acid residues (LysM domains), which are separated by nonhomologous sequences. The cA domain could be deleted without destroying the cell wall-hydrolyzing activity of the enzyme in vitro. This AcmA derivative was capable neither of binding to lactococcal cells nor of lysing these cells while separation of the producer cells was incomplete. The cA domain and a chimeric protein consisting of cA fused to the C terminus of MSA2, a malaria parasite surface antigen, bound to lactococcal cells specifically via cA. The fusion protein also bound to many other Gram-positive bacteria. By chemical treatment of purified cell walls of L. lactis and Bacillus subtilis, peptidoglycan was identified as the cell wall component interacting with cA. Immunofluorescence studies showed that binding is on specific locations on the surface of L. lactis, Enterococcus faecalis, Streptococcus thermophilus, B. subtilis, Lactobacillus sake, and Lactobacillus casei cells. Based on these studies, we propose that LysM-type repeats bind to peptidoglycan and that binding is hindered by other cell wall constituents, resulting in localized binding of AcmA. Lipoteichoic acid is a candidate hindering component. For L. lactis SK110, it is shown that lipoteichoic acids are not uniformly distributed over the cell surface and are mainly present at sites where no MSA2cA binding is observed.
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PMID:Cell wall attachment of a widely distributed peptidoglycan binding domain is hindered by cell wall constituents. 1268 15

A series of phase I clinical studies were conducted to evaluate the safety of plasmid DNA and modified vaccinia virus Ankara malaria vaccines. The vaccines each encoded a polyepitope string fused to whole Plasmodium falciparum TRAP antigen. Forty-three healthy adult volunteers received the vaccines alone or in DNA/MVA prime-boost combinations. The DNA vaccine was administered either intramuscularly by needle or intradermally by a needleless delivery device. The MVA vaccine was administered intradermally by needle. The vaccines were well-tolerated by all three routes and in various DNA/MVA immunisation regimes. There were no severe or serious adverse events.
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PMID:Safety of DNA and modified vaccinia virus Ankara vaccines against liver-stage P. falciparum malaria in non-immune volunteers. 1270 89

Falcipain-2 (FP-2) is a dual-function protease that cleaves hemoglobin at the early trophozoite stage and erythrocyte membrane ankyrin and protein 4.1 at the late stages of parasite development. FP-2-mediated cleavage of ankyrin and protein 4.1 is postulated to cause membrane instability facilitating parasite release in vivo. To test this hypothesis, here we have determined the precise peptide sequence at the hydrolysis site of ankyrin to develop specific inhibitor(s) of FP-2. Mass spectrometric analysis of the hydrolysis products showed that FP-2-mediated cleavage of ankyrin occurred immediately after arginine 1,210. A 10-mer peptide (ankyrin peptide, AnkP) containing the cleavage site completely inhibited the FP-2 enzyme activity in vitro and abolished all of the known functions of FP-2. To determine the effect of this peptide on the growth and development of P. falciparum, the peptide was delivered into intact parasite-infected red blood cells (RBCs) via the Antennapedia homeoprotein internalization domain. Growth and maturation of trophozoites and schizonts was markedly inhibited in the presence of the fused AnkP peptide. <10% of new ring-stage parasites were detected compared with the control sample. Together, our results identify a specific peptide derived from the spectrin-binding domain of ankyrin that blocks late-stage malaria parasite development in RBCs. Confocal microscopy with FP-2-specific antibodies demonstrated the proximity of the enzyme in apposition with the RBC membrane, further corroborating the proposed function of FP-2 in the cleavage of RBC skeletal proteins.
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PMID:Ankyrin peptide blocks falcipain-2-mediated malaria parasite release from red blood cells. 1277 9

The C-terminal fragment of Plasmodium falciparum merozoite surface protein 1 (F19) is a leading candidate for the development of a malaria vaccine. Successful vaccination trials on primates, immunochemistry, and structural studies have shown the importance of its native conformation for its protective role against infection. F19 is a disulfide-rich protein, and the correct pairing of its 12 half-cystines is required for the native state of the protein. F19 has been produced in the Escherichia coli periplasm, which has an oxidative environment favorable for the formation of disulfide bonds. F19 was either expressed as a fusion with the maltose binding protein (MBP) or directly addressed to the periplasm by fusing it with the MBP signal peptide. Direct expression of F19 in the periplasm led to a misfolded protein with a heterogeneous distribution of disulfide bridges. On the contrary, when produced as a fusion protein with E. coli MBP, the F19 moiety was natively folded. Indeed, after proteolysis of the fusion protein, the resulting F19 possesses the structural characteristics and the immunochemical reactivity of the analogous fragment produced either in baculovirus-infected insect cells or in yeast. These results demonstrate that the positive effect of MBP in assisting the folding of passenger proteins extends to the correct formation of disulfide bridges in vivo. Although proteins or protein fragments fused to MBP have been frequently expressed with success, our comparative study evidences for the first time the helping property of MBP in the oxidative folding of a disulfide-rich protein.
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PMID:Assistance of maltose binding protein to the in vivo folding of the disulfide-rich C-terminal fragment from Plasmodium falciparum merozoite surface protein 1 expressed in Escherichia coli. 1460 31

The yeast transcriptional coactivator GCN5 (yGCN5), a histone acetyltransferase (HAT), is part of large multimeric complexes that are required for chromatin remodeling and transcriptional activation. Like other eukaryotes, the malaria parasite DNA is organized into nucleosomes and the genome encodes components of chromatin-remodeling complexes. Here we show that GCN5 is conserved in Plasmodium species and that the most homologous regions are within the HAT domain and the bromodomain. The Plasmodium falciparum GCN5 homologue (PfGCN5) is spliced with three introns, encoding a protein of 1,464 residues. Mapping of the ends of the PfGCN5 transcript suggests that the mRNA is 5.2 to 5.4 kb, consistent with the result from Northern analysis. Using free core histones, we determined that recombinant PfGCN5 proteins have conserved HAT activity with a substrate preference for histone H3. Using substrate-specific antibodies, we determined that both Lys-8 and -14 of H3 were acetylated by the recombinant PfGCN5. In eukaryotes, GCN5 homologues interact with yeast ADA2 homologues and form large multiprotein HAT complexes. We have identified an ADA2 homologue in P. falciparum, PfADA2. Yeast two-hybrid and in vitro binding assays verified the interactions between PfGCN5 and PfADA2, suggesting that they may be associated with each other in vivo. The conserved function of the HAT domain in PfGCN5 was further illustrated with yeast complementation experiments, which showed that the PfGCN5 region corresponding to the full-length yGCN5 could partially complement the yGCN5 deletion mutation. Furthermore, a chimera comprising the PfGCN5 HAT domain fused to the remainder of yeast GCN5 (yGCN5) fully rescued the yGCN5 deletion mutant. These data demonstrate that PfGCN5 is an authentic GCN5 family member and may exist in chromatin-remodeling complexes to regulate gene expression in P. falciparum.
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PMID:Plasmodium falciparum histone acetyltransferase, a yeast GCN5 homologue involved in chromatin remodeling. 1507 57

We have previously reported strategies for Escherichia coli production of recombinant immunogens fused to hydrophobic peptide or lipid tags to improve their capacity to be incorporated into an adjuvant formulation. In the present study, we have explored the strong interaction between biotin and SA (streptavidin) (K(D) approximately 10(-15) M) to couple recombinant immunogens to iscoms (immunostimulating complexes). Two different concepts were evaluated. In the first concept, a His(6)-tagged SA fusion protein (His(6)-SA) was bound to Ni(2+)-loaded iscom matrix (iscom without associated protein), and biotinylated immunogens were thereafter associated with the SA-coated iscoms. The immunogens were either biotinylated in vivo on E. coli expression or double biotinylated in vivo and in vitro. In the second concept, the recombinant immunogens were expressed as SA fusion proteins, which were directly bound to a biotinylated iscom matrix. A 53-amino-acid malaria peptide (M5), derived from the central repeat region of the Plasmodium falciparum blood-stage antigen Pf155/RESA, and a 232-amino-acid segment (SRS2') from the central region (from Pro-97 to Lys-328) of the major surface antigen NcSRS2 of the protozoan parasite Neospora caninum, served as model immunogens in the present study. All fusion proteins generated were found to be efficiently expressed and could be recovered to high purity using affinity chromatography. The association between the different immunogen-containing fusion proteins and the corresponding iscom matrix was demonstrated by analytical ultracentrifugation in a sucrose density gradient. However, some fusion proteins were, to a certain extent, also found to associate unspecifically with a regular iscom matrix. Furthermore, selected iscom fractions were demonstrated to induce high-titre antigen-specific antibody responses on immunization of mice. For the particular target immunogen SRS2', the induced antibodies demonstrated reactivity to the native antigen NcSRS2. We believe that the presented concepts offer convenient methods to achieve efficient adjuvant association of recombinant immunogens, and the advantages and disadvantages of the two concepts are discussed.
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PMID:Applying biotin-streptavidin binding for iscom (immunostimulating complex) association of recombinant immunogens. 1529 88

Transmission-blocking vaccines target the sexual stages of the malaria parasite and prevent further development within the mosquito vector halting the transmission of the parasite. Zygote/ookinetes are potential targets of antibodies inhibiting oocyst development in the mosquito midgut and rendering mosquitoes non-infectious. DNA vaccine constructs were developed expressing Pvs25 and Pvs28 (Plasmodium vivax zygote/ookinete surface proteins) fused at the amino terminus with tissue plasminogen activator signal peptide. Antibodies produced in mice after immunization with three doses recognized respective antigens in the parasites and in an ELISA, and these antibodies when tested in membrane feeding assay were potent blockers of P. vivax transmission. Co-immunization with Pvs25 and Pvs28 DNA vaccine constructs did not affect the antigen specific antibody responses against individual antigens, and the antibodies remained effective in blocking parasite transmission demonstrating 91-99% reduction in oocyst number in the mosquito midgut. Several combinations of homologous and heterologous antigen-delivery prime boost strategy were also evaluated and the results suggested that antibody titers and transmission-blocking activities by the three prime-boost strategies (DNA prime/DNA boost, DNA prime/protein boost, and protein prime/protein boost) were comparable with slightly better immunogenicity of heterologous antigen-delivery prime/boost as compared to DNA/DNA alone. These results demonstrate potent immunogenicity of DNA vaccines encoding Pvs25 and Pvs28 and warrant further evaluation in non-human primates.
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PMID:Potent immunogenicity of DNA vaccines encoding Plasmodium vivax transmission-blocking vaccine candidates Pvs25 and Pvs28-evaluation of homologous and heterologous antigen-delivery prime-boost strategy. 1529 75

The ultimate malaria vaccine will require the delivery of multiple antigens from different stages of the complex malaria life cycle. In order to efficiently deliver multiple antigens with use of DNA vaccine technology, new antigen delivery systems must be assessed. This study utilized a bicistronic vector construct, containing an internal ribosome entry site, expressing a combination of malarial candidate antigens: merozoite surface protein 4/5 (MSP4/5) (fused to a monocyte chemotactic protein 3 chemoattractant sequence) and apical membrane antigen 1 (AMA-1) (fused to a tissue plasminogen activator secretion signal). Transfection of COS 7 cells with bicistronic plasmids resulted in production and secretion of both AMA-1 and MSP4/5 in vitro. Vaccination of BALB/c mice via intraepidermal gene gun and intramuscular routes against AMA-1 and MSP4/5 resulted in antibody production and significant in vitro proliferation of splenocytes stimulated by both AMA-1 and MSP4/5. Survival of BALB/c mice vaccinated with bicistronic constructs after lethal Plasmodium chabaudi adami DS erythrocytic-stage challenge was variable, although significant increases in survival and reductions in peak parasitemia were observed in several challenge trials when the vaccine was delivered by the intramuscular route. This study using a murine model demonstrates that the delivery of malarial antigens via bicistronic vectors is feasible. Further experimentation with bicistronic delivery systems is required for the optimization and refinement of DNA vaccines to effectively prime protective immune responses against malaria.
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PMID:A bicistronic DNA vaccine containing apical membrane antigen 1 and merozoite surface protein 4/5 can prime humoral and cellular immune responses and partially protect mice against virulent Plasmodium chabaudi adami DS malaria. 1538 53

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