Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The DNA sequence coding for the merozoite protein gp195 was inserted into the vaccinia virus expression plasmid pvHAX31. This recombinant plasmid was used to integrate the gp195 DNA into the vaccinia virus genome by homologous recombination. The resulting chimeric virus was tested for gp195 expression in CV-1 cells by Western blotting. The virus that gave positive results was then grown on a large scale and used to infect rabbits. The animal antibody response towards gp195 was analysed in detail. The possibility of using gp195 as a component in a multivalent malaria vaccine is discussed.
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PMID:Expression of the merozoite surface protein gp195 in vaccinia virus. 830 42

NYVAC-based vaccinia virus recombinants expressing the circumsporozoite protein (CSP) were evaluated in the Plasmodium berghei rodent malaria model system. Immunization of mice with a NYVAC-based CSP recombinant elicited a high level of protection (60 to 100%). Protection did not correlate with CS repeat-specific antibody responses and was abrogated by in vivo CD8+ T-cell depletion. Protection was not enhanced by modification of the subcellular localization of CSP. These results suggest the potential of poxvirus-based vectors for the development of vaccine candidates for human malaria.
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PMID:Attenuated vaccinia virus-circumsporozoite protein recombinants confer protection against rodent malaria. 861 76

The highly attenuated NYVAC vaccinia virus strain has been utilized to develop a multiantigen, multistage vaccine candidate for malaria, a disease that remains a serious global health problem and for which no highly effective vaccine exists. Genes encoding seven Plasmodium falciparum antigens derived from the sporozoite (circumsporozoite protein and sporozoite surface protein 2), liver (liver stage antigen 1), blood (merozoite surface protein 1, serine repeat antigen, and apical membrane antigen 1), and sexual (25-kDa sexual-stage antigen) stages of the parasite life cycle were inserted into a single NYVAC genome to generate NYVAC-Pf7. Each of the seven antigens was expressed in NYVAC-Pf7-infected culture cells, and the genotypic and phenotypic stability of the recombinant virus was demonstrated. When inoculated into rhesus monkeys, NYVAC-Pf7 was safe and well tolerated. Antibodies that recognize sporozoites, liver, blood, and sexual stages of P. falciparum were elicited. Specific antibody responses against four of the P.falciparum antigens (circumsporozoite protein, sporozoite surface protein 2, merozoite surface protein 1, and 25-kDa sexual-stage antigen) were characterized. The results demonstrate that NYVAC-Pf7 is an appropriate candidate vaccine for further evaluation in human clinical trials.
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PMID:NYVAC-Pf7: a poxvirus-vectored, multiantigen, multistage vaccine candidate for Plasmodium falciparum malaria. 875 36

A variety of vaccine delivery systems including peptides with various adjuvants, recombinant particles, live recombinant viruses and bacteria and plasmid DNA were tested for their ability to induce CD8+ cytotoxic T lymphocytes (CTL) against a well-defined epitope (amino acids 252-260) from the circumsporozoite (CS) protein of Plasmodium berghei. We compared routes of immunization that would be applicable for the administration of a malaria vaccine in humans. The majority of these vaccines did not induce high CTL responses in the spleens of immunized mice. However, both a yeast-derived Ty virus-like particle expressing the optimal nine-amino acid epitope SYIPSAEKI from the CS protein (CSP-VLP) and a lipid-tailed peptide of this same sequence induced high levels of the major histocompatibility complex (MHC) class I-restricted CTL with one and three subcutaneous immunizations, respectively. Moreover, these CTL were able to recognize naturally processed antigen expressed by a recombinant vaccinia virus. The levels of CTL induced by CSP-VLP could be augmented by co-immunization with certain cytokines. Target cells pulsed with CSP-VLP were recognized and lysed, showing that the particles were effectively processed and presented through MHC class I presentation pathway. The levels of CTL induced using CSP-VLP and lipopeptides are comparable to those observed after immunization with multiple doses of irradiated sporozoites.
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PMID:Comparison of numerous delivery systems for the induction of cytotoxic T lymphocytes by immunization. 876 44

There has been significant progress in attempts to develop effective vaccines against parasitic diseases, including malaria, leishmaniasis and schistosomiasis. In malaria, in addition to field trials with SPf66, the Colombian malaria vaccine, several Plasmodium falciparum candidate vaccines are under Phase I testing, including NYVAC-7, a multi-antigen, attenuated recombinant vaccinia virus. Additional candidate antigens are at an advanced stage of pre-clinical development. In leishmaniasis, Phase III clinical trials on first generation vaccines (killed Leishmania, with or without BCG) are proceeding in several countries. Use of IL-12 as an adjuvant for use with killed Leishmania vaccine is being studied in non-human primates. A genetically constructed (gene knock-out) live avirulent Leishmania is being developed in preclinical studies as a potential live vaccine. Research is also underway to evaluate several recombinant proteins. The genes coding for such leading candidate antigens are also being incorporated into various live vectors to yield recombinant organisms with vaccination potential. In schistosomiasis, a strategy for the development of a vaccine against Schistosoma mansoni has been established, focussing on six priority recombinant antigens. An Asian S. japonicum vaccine development network has also been established, initially to develop a vaccine to block transmission in cattle and oxen, important reservoirs of the disease in Asia, and ultimately a human vaccine. As all of the above-mentioned vaccines will be used in the field in disease-endemic tropical countries, optimal stability will be of paramount importance.
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PMID:Progress on vaccines against parasites. 885 4

The immunogenicity of a recombinant replication defective adenovirus expressing a major malaria Ag, the circumsporozoite (CS) protein (AdPyCS), was determined using a rodent malaria model. A single immunizing dose of this construct induced a large number of CS-specific CD8+ and CD4+ T cells in the spleens of these animals, particularly when given by the s.c. or i.m. route. A single dose of AdPyCS also induced high titers of Abs to Plasmodium yoelii sporozoites in mice. No other form of presentation of the CS protein given as a single immunizing dose, i.e., irradiated sporozoites, recombinant vaccinia, or influenza virus, etc., elicits comparably high numbers of CS-specific CD8+ T cells. The high concentration of CS-specific CD8+ T cells in the spleen was relatively short-lived, decreasing to half of its original value by 4 wk and to one-third at 8 wk after AdPyCS inoculation. The decrease in splenic CS-specific CD4+ T cells was even more rapid. Most importantly, a single dose of inoculation of AdPyCS into mice rendered them highly resistant to sporozoite challenge, resulting in a 93% inhibition of liver stage development of the parasites. This protective effect was primarily mediated by CD8+ T cells, as shown by depletion of this T cell population, while depletion of the CD4+ T cell population had only a minor effect on anti-plasmodial activity. Moreover, the inoculation of mice with AdPyCS induces sterile immunity in a significant proportion of mice, preventing the occurrence of parasitemia.
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PMID:Single immunizing dose of recombinant adenovirus efficiently induces CD8+ T cell-mediated protective immunity against malaria. 901 69

Cytotoxic T lymphocytes (CTL) have been implicated in immunity to Plasmodium falciparum infection and disease. We have previously described the use of peptides to define malaria-specific CTL epitopes. To determine whether these peptide epitopes are processed intracellularly from the whole antigen we have developed recombinant vaccinia viruses (rVV) expressing three malaria antigens: thrombospondin-related adhesive protein (TRAP), Pfs16 and the C-terminal half of liver-stage antigen (LSA)-1. Target cells infected with recombinant viruses were lysed by malaria-specific CTL from semi-immune African donors. We also tested the ability of cells infected with these recombinant vaccinia viruses to re-stimulate malaria-specific CTL in peripheral blood lymphocytes from malaria immune adults. Two other pox virus recombinants, NYVAC, an attenuated vaccinia virus, and ALVAC, a canarypox virus, both expressing malaria antigens were also evaluated for their ability to stimulate malaria-specific CTL in contrast to peptide, none of these viruses successfully re-stimulated CTL from the peripheral blood lymphocytes of semi-immune donors. The ability of human CTL from naturally exposed individuals to recognize processed antigen supports the relevance of these cells in protective immunity to malaria.
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PMID:Recombinant vaccinia viruses for the characterization of Plasmodium falciparum-specific cytotoxic T lymphocytes: recognition of processed antigen despite limited re-stimulation efficacy. 918 18

The Plasmodium yoelii sporozoite surface protein 2 (PySSP2) is the target of protective cellular immunity. Cytotoxic T cells specific for the Plasmodium falciparum analog PfSSP2, also known as thrombospondin-related anonymous protein (TRAP), are induced in human volunteers immunized with irradiated sporozoites. PfSSP2 is an important candidate antigen for a multicomponent malaria vaccine. We generated and characterized three monoclonal antibodies (MAbs) specific for PfSSP2/TRAP. The MAbs PfSSP2.1 (immunoglobulin G1 [IgG1]), PfSSP2.2 (IgG2a), and PfSSP2.3 (IgM) were species specific and identified three distinct B-cell epitopes containing sequences DRYI, CHPSDGKC, and TRPHGR, respectively. PfSSP2.1 partially inhibited P. falciparum liver-stage parasite development in human hepatocyte cultures (42 and 86% in two experiments at 100 microg/ml). Mice immunized with vaccinia virus expressing full-length PfSSP2 protein produced antibodies to (DRYIPYSP)3, and humans living in malaria-endemic areas (Indonesia and Kenya), who have lifelong exposure and partial clinical immunity to malaria, had antibodies to both (DRYIPYSP)3 and (CHPSDGKCN)2. Mice immunized with multiple antigen peptides MAP4 (DRYIPYSP)3P2P30 and MAP4 (CHPSDGKCN)3P2P30 in TiterMax developed antibodies to sporozoites that partially inhibited sporozoite invasion of human hepatoma cells (39 to 71% at a serum dilution of 1:50 in three different experiments). The modest inhibitory activities of the MAbs and the polyclonal antibodies to PfSSP2/TRAP epitopes do not suggest that a single-component vaccine designed to induce antibodies against PfSSP2/TRAP will be protective. Nonetheless, the MAbs directed against PfSSP2, and the peptides recognized by these MAbs, will be essential reagents in the development of PfSSP2/TRAP as a component of a multivalent P. falciparum human malaria vaccine.
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PMID:Development of two monoclonal antibodies against Plasmodium falciparum sporozoite surface protein 2 and mapping of B-cell epitopes. 923 8

Approaches to improve the efficacy of the current (killed) influenza virus vaccines include the generation of cold-adapted and genetically engineered influenza viruses containing specific attenuating mutations. It is hoped that these genetically altered viruses, in which the hemagglutinin and neuraminidase genes from circulating strains have been incorporated by reassortment, can be used as safe live influenza virus vaccines to induce a long-lasting protective immune response in humans. In addition, genetically engineered influenza viruses may provide a means for expressing foreign antigens. Immunization of mice with recombinant influenza and vaccinia viruses expressing specific antigens of Plasmodium yoelii resulted in a dramatic protective immune response against malaria in this model. Mice immunized with recombinant influenza viruses expressing human immunodeficiency virus (HIV) epitopes generated long-lasting HIV-specific serum antibodies and secretory IgA in the secretory nasal, vaginal, and intestinal mucosa. These results suggest that genetically engineered influenza viruses may be developed for use as live virus vaccines against influenza as well as other diseases.
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PMID:Development of novel influenza virus vaccines and vectors. 924 Jun 94

Development of an effective malaria vaccine poses a major scientific challenge both in the laboratory and in the field. Such a vaccine is necessary because of the massive disease burden of malaria in the developing world, the global spread of drug resistance, and the difficulty of sustainable control of the mosquito vector. Animal models have shown the immunological feasibility of vaccines targeted against different stages of parasite development, and studies in human volunteers have shown that a recombinant protein vaccine can protect against challenge with the homologous strain of parasite. However, both natural and vaccine-induced immunity are hampered by the remarkable capacity of the parasites to vary critical antigenic structures; large field trials of a synthetic peptide vaccine gave equivocal results. In an attempt to overcome the dual difficulty of poor immunogenicity and parasite diversity, much experimental work is now focused on complex antigenic constructs, delivered as DNA vaccines or in live vectors such as vaccinia, with multiple targets at each stage of parasite development.
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PMID:Development of a malaria vaccine. 940 May 30


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