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)

Malaria remains one of the leading causes of both morbidity and mortality of humans residing in tropical countries. For many malarious regions outside of Africa, development of effective transmission-blocking vaccines will require coverage against both Plasmodium falciparum and Plasmodium vivax. The genes coding for two potential P. vivax transmission-blocking antigens, Pvs25 and Pvs28, have been cloned. Mice vaccinated with yeast-produced recombinant proteins Pvs25 and Pvs28 adsorbed to aluminum hydroxide developed strong antibody responses against the immunogens. The development of oocysts in mosquitoes was completely inhibited when these antisera were ingested with the P. vivax Salvador (Sal) I strain-infected chimpanzee blood. In a large collection of P. vivax field isolates, we found only 5 nucleotide changes that would result in amino acid substitutions in Pvs25. In contrast, the Pvs28 gene had 22 nucleotide changes that would result in conservative amino acid substitutions. How the antigenic polymorphism of Pvs25 and Pvs28 would affect the efficacy of Sal I based vaccine remains to be elucidated. Clinical trials with Pvs25 and the P. falciparum ortholog Pfs25 are in preparation.
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PMID:Transmission-blocking vaccine of vivax malaria. 1254 42

The control of Plasmodium falciparum malaria by vaccination will require immunization with multiple parasite antigens effectively formulated in combination. In this regard, proteins expressed on the surface of blood-stage merozoites are attractive as vaccine targets given their functional importance in the invasion of erythrocytes and accessibility to serum antibodies. We have utilized a Plasmodium chabaudi vaccine model to begin to evaluate the efficacy of immunization with combined formulations of apical membrane antigen-1 (AMA-1) and merozoite surface protein-1 (MSP-1). Using a pET/T7 RNA polymerase bacterial expression system, we have expressed, purified and refolded recombinant antigens representing the 54 kDa ectodomain of Pc AMA-1 and the 42 kDa C-terminus of Pc MSP-1. Immunization with recombinant Pc AMA-1+Pc MSP-1(42) induced a high level of protection against P. chabaudi malaria with protective efficacy varying with antigen dose, choice of adjuvant, and immunization protocol. Based on the reduction of P. chabaudi parasitemia, Alum proved effective for use with the combination of Pc AMA-1 and Pc MSP-1(42). The use of Quil A was similarly effective with single or combined antigen immunizations, particularly with low antigen dose. In general, serological analysis of prechallenge sera indicated a dominant IgG1 response. For a given formulation, immunization with the combination of Pc AMA-1 and Pc MSP-1(42) elicited IgG responses comparable to those observed following immunization with each antigen alone. However, prechallenge antibody titers alone were not predictive of protective efficacy. While Pc AMA-1 and Pc MSP-1(42) can be effectively formulated in combination, further study is needed to define measurable parameters of protective T cell and B cell responses induced by Pc AMA-1+Pc MSP-1(42) that are predictive of vaccine efficacy.
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PMID:Immunization against Plasmodium chabaudi malaria using combined formulations of apical membrane antigen-1 and merozoite surface protein-1. 1270 68

An important aspect of malaria vaccine development is the identification of an appropriate adjuvant which is both capable of stimulating a protective immune response and safe for use by humans. Here, we investigated the feasibility of using novel immunostimulatory molecules as adjuvants combined with a crude antigen preparation and coadsorbed to aluminum hydroxide (alum) as a vaccine against blood-stage Plasmodium chabaudi AS malaria. Prior to challenge infection, immunization of genetically susceptible A/J mice with the combination of malaria antigen plus recombinant interleukin-12 (IL-12) in alum induced a Th1 immune response with production of high levels of gamma interferon (IFN-gamma) and diminished IL-4 levels by spleen cells stimulated in vitro with parasite antigen compared to mice immunized with antigen alone, antigen in alum, or antigen plus IL-12. Mice immunized with malaria antigen plus recombinant IL-12 in alum had high levels of total malaria-specific antibody and immunoglobulin G2a. Compared to unimmunized mice, immunization with antigen plus IL-12 in alum induced the highest level of protective immunity against challenge infection with P. chabaudi AS, which was evident as a significantly decreased peak parasitemia level and 100% survival. Protective immunity was dependent on CD4(+) T cells, IFN-gamma, and B cells and was long-lasting. Replacement of IL-12 as an adjuvant by synthetic oligodeoxynucleotides (ODN) containing CpG motifs induced a similar level of vaccine-induced protection against challenge infection with P. chabaudi AS. These results illustrate that it is possible to enhance the potency of a crude malaria antigen preparation delivered in alum by inclusion of immunostimulatory molecules, such as IL-12 or CpG-ODN.
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PMID:Vaccination with novel immunostimulatory adjuvants against blood-stage malaria in mice. 1293 62

The C-terminal conserved region of Plasmodium falciparum merozoite surface protein 3 (MSP3) is the trigger antigen of a protective immune response mediated by cytophilic antibodies. In an open, randomized, two-adjuvant (Montanide ISA 720, aluminum hydroxide) phase I clinical trial we evaluated the safety and immunogenicity of increasing doses of a long synthetic peptide construct spanning the conserved region of MSP3 targeted by biologically active antibodies (MSP3-LSP). Thirty-five healthy volunteers were randomized to receive three subcutaneous injections on days 0, 30, and 120. Of the 100 injections given, 10 caused severe local reactions, 62 caused transient mild to moderate local reactions, and 28 caused no reaction. On the basis of preestablished exclusion criteria, use of the Montanide formulation led to withdrawal of five volunteers after the second injection. This led to a reduction in the subsequent vaccine doses in four of the groups. No vaccine-related serious adverse events occurred throughout the trial. After the third injection, volunteers displayed a marked specific anti-MSP3-LSP antibody response (23/30 individuals, compared with 29/34 individuals for plasma from an area where malaria is endemic), an anti-native MSP3 antibody response (19/30 individuals), a T-cell-antigen-specific proliferative response (26/30 individuals), and gamma interferon production (25/30 individuals). In conclusion, the MSP3-LSP vaccine was immunogenic with both adjuvants, although it was unacceptably reactogenic when it was combined with Montanide. The potential usefulness of the candidate vaccine is supported by the induction of a strong cytophilic response (i.e., the type of anti-MSP3 antibodies involved in antibody-dependent, monocyte-mediated protective mechanisms in areas where malaria is endemic).
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PMID:Phase I malaria vaccine trial with a long synthetic peptide derived from the merozoite surface protein 3 antigen. 1629 95

The epidemiology of malaria is largely dependent on its vector habitat. Each species of Anopheles larvae has a specific habitat requirement for its development. Anopheline mosquitoes are common throughout Thailand and utilize a wide variety of habitats. The dominant malaria vectors in Thailand are An. dirus, An. maculatus, and An. minimus. The relationship between soil chemical components and the particular species of anopheline in their specific aquatic habitats was studied from September 2002 to July 2003 at Ban Khun Huay, Ban Pa Dae, and Ban Tham Seau in the Mae Sot district, Tak Province, Thailand. Mapping of each habitat was performed using a Global Positioning System unit. A total count of 2,130 laboratory reared adult Anopheles were collected from 138 habitats categorized into 11 different types identified into 18 species from larval sampling in three villages. An. dirus, An. maculatus, and An. minimus were found 5.26%, 10.70%, and 55.31%, respectively, along with other minor species. Drainage and/or season seemed to be associated with the presence of An. dirus, An. maculatus, An. minimus, An. jamesii, An. sawadwongporni, and An. peditaeniatus. Chemical tests: pH, aluminum, magnesium, calcium, and ferric iron showed some associations with the presence of Anopheles. Only drainage was found to be a parameter associated with the presence of An. minimus.
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PMID:Soil analysis around anopheline breeding habitats in north-western Thailand. 1643 40

Region II of the erythrocyte-binding antigen (EBA-175 RII) has been identified as a promising target for a malaria vaccine. A systematic approach to identify optimal preformulation conditions of a non-glycosylated (NG) antigen, EBA-175 RII-NG, has been developed. This approach consists of development of an empirical temperature/pH phase diagram, high throughput stabilizer screening and aluminum salt adjuvant adsorption studies. Using these physical methods, we developed a stable formulation for EBA-175 RII-NG at pH 6.0 with sucrose and Brij 35 as stabilizers and Adju-Phos as an adjuvant. This approach should be generally applicable to guiding the development of stable vaccine formulations.
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PMID:A systematic approach to stabilizing EBA-175 RII-NG for use as a malaria vaccine. 1673 84

The glutamate-rich protein (GLURP) of P. falciparum is the target of cytophilic antibodies which are significantly associated with protection against clinical malaria. A phase 1 clinical trial was conducted in healthy adult volunteers with the long synthetic peptide (LSP) GLURP(85-213) combined with either Aluminum Hydroxide (Alum, 18 volunteers) or Montanide ISA 720 (ISA, 18 volunteers) as adjuvants. Immunizations with 10, 30 or 100 microg GLURP(85-213) were administered subcutaneously at days 0, 30, and 120. Adverse events occurred more frequently with increasing dosage of GLURP(85-213) LSP and were more prevalent in the ISA group. Serious vaccine-related adverse events were not observed. The vaccine induced dose-dependent cellular and humoral immune responses, with high levels of (mainly cytophilic IgG1) antibodies that recognize parasites by immunofluorescence (IFA). Plasma samples collected 30 days after the last immunization induced a dose-dependent inhibition of parasite growth in vitro in the presence of monocytes. In conclusion, immunizations with GLURP(85-213) LSP formulations induce adverse events but can be administered safely, generating antibodies with capacity to mediate growth-inhibitory activity against P. falciparum in vitro.
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PMID:Glutamate-rich protein (GLURP) induces antibodies that inhibit in vitro growth of Plasmodium falciparum in a phase 1 malaria vaccine trial. 1691 40

The development of protein subunit vaccines to combat some of the world's deadliest pathogens such as a malaria parasite, Plasmodium falciparum, is stalled, due in part to the inability to induce and sustain high-titer antibody responses. Here, we show the induction of persistent, high-titer antibody responses to recombinant Pfs25H, a human malarial transmission-blocking protein vaccine candidate, after chemical conjugation to the outer-membrane protein complex (OMPC) of Neisseria meningitidis serogroup B and adsorption to aluminum hydroxyphosphate. In mice, the Pfs25H-OMPC conjugate vaccine was >1,000 times more potent in generating anti-Pfs25H ELISA reactivity than a similar 0.5-microg dose of Pfs25H alone in Montanide ISA720, a water-in-oil adjuvant. The immune enhancement requires covalent conjugation between Pfs25H and the OMPC, given that physically mixed Pfs25H and OMPC on aluminum hydroxyphosphate failed to induce greater activity than the nonconjugated Pfs25H on aluminum hydroxyphosphate. The conjugate vaccine Pfs25H-OMPC also was highly immunogenic in rabbits and rhesus monkeys. In rhesus monkeys, the antibody responses were sustained over 18 months, at which time another vaccination with nonconjugated Pfs25H induced strong anamnestic responses. The vaccine-induced anti-Pfs25-specific antibodies in all animal species blocked the transmission of parasites to mosquitoes. Protein antigen conjugation to OMPC or other protein carrier may have general application to a spectrum of protein subunit vaccines to increase immunogenicity without the need for potentially reactogenic adjuvants.
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PMID:Sustained high-titer antibody responses induced by conjugating a malarial vaccine candidate to outer-membrane protein complex. 1711 Apr 40

Malaria is a leading cause of morbidity and mortality, estimated to cause >1 million childhood deaths annually. Plasmodium falciparum causes the most severe form of the disease. There is as yet no licensed vaccine for this disease, despite over a half century of research. In this study, we investigated a transmission-blocking vaccine candidate, the ookinete surface protein Pfs25. Antibodies against Pfs25, drawn in during a bite, can block parasite development in the mosquito midgut, preventing transmission to other individuals. Pfs25 is a low-molecular-weight protein, by itself not immunogenic. To increase its immunogenicity, we investigated several methods of conjugating Pfs25 to itself and to other proteins: recombinant Pseudomonas aeruginosa exotoxin A, and ovalbumin, using amide, hydrazone, or thioether linkages. All conjugates were immunogenic and induced booster responses in mice. The scheme to form amide bonds between proteins by using adipic acid dihydrizide as a linker produced the most immunogenic conjugates. Adsorption of the conjugates onto aluminum hydroxide further increased the antibody response. Remarkably, the antibody levels 3 or 7 months after the last injection were significantly higher than those 1 wk after that injection. The observed transmission-blocking activity of immune sera correlated with antibody levels measured by ELISA.
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PMID:Long-lasting and transmission-blocking activity of antibodies to Plasmodium falciparum elicited in mice by protein conjugates of Pfs25. 1719 Jul 97

With about 2.2 billion of the world' s population at risk, malaria remains as one of the most infectious disease globally. The failure of existing control strategies necessitates the need for vaccine development. Our efforts have been geared on the development of an effective vaccine using SE36 protein based from the N-terminal domain of Serine Repeat Antigen (SERA5) of Plasmodium falciparum. Immunoepidemiological data underscores the uniqueness of SERA vs. other vaccine candidate, showing a semi-perfect correlation of the naturally induced antibody response to SE36 protein with increased protective immunity in adults and children. GMP-grade SE36 was formulated adsorbed to aluminum hydroxide gel as BK-SE36. Immunological test using squirrel monkeys provided significant protection after P. falciparum challenge infection. No significant safety issues have been identified in healthy, malaria-unexposed adults in a Phase Ia clinical trial in Japan. Cumulative data confirms that the vaccine is safe and highly immunogenic.
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PMID:[Malaria vaccine]. 1893 2


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