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 profound changes in the morphology, antigenicity, and functional properties of the host erythrocyte membrane induced by intraerythrocytic parasites of the human malaria Plasmodium falciparum are poorly understood at the molecular level. We have used mouse mAbs to identify a very large malarial protein (Mr approximately 300,000) that is exported from the parasite and deposited on the cytoplasmic face of the erythrocyte membrane. This protein is denoted P. falciparum erythrocyte membrane protein 2 (Pf EMP 2). The mAbs did not react with the surface of intact infected erythrocytes, nor was Pf EMP 2 accessible to exogenous proteases or lactoperoxidase-catalyzed radioiodination of intact cells. The mAbs also had no effect on in vitro cytoadherence of infected cells to the C32 amelanotic melanoma cell line. These properties distinguish Pf EMP 2 from Pf EMP 1, the cell surface malarial protein of similar size that is associated with the cytoadherent property of P. falciparum-infected erythrocytes. The mAbs did not react with Pf EMP 1. In one strain of parasite there was a significant difference in relative mobility of the 125I-surface-labeled Pf EMP 1 and the biosynthetically labeled Pf EMP 2, further distinguishing these proteins. By cryo-thin-section immunoelectron microscopy we identified organelles involved in the transit of Pf EMP through the erythrocyte cytoplasm to the internal face of the erythrocyte membrane where the protein is associated with electron-dense material under knobs. These results show that the intraerythrocytic malaria parasite has evolved a novel system for transporting malarial proteins beyond its own plasma membrane, through a vacuolar membrane and the host erythrocyte cytoplasm to the erythrocyte membrane, where they become membrane bound and presumably alter the properties of this membrane to the parasite's advantage.
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PMID:Transport of an Mr approximately 300,000 Plasmodium falciparum protein (Pf EMP 2) from the intraerythrocytic asexual parasite to the cytoplasmic face of the host cell membrane. 243 28

The antibody response to an epitope on gamete antigens of Plasmodium falciparum in persons naturally exposed to malaria has been investigated by competitive enzyme-linked immunosorbent assay. The assay detects antibodies to an epitope on the 48/45-kilodalton (kDa) gamete surface antigen by competition with horseradish peroxidase-labeled monoclonal antibody IIC5-B10. Five sera previously shown to immunoprecipitate the 230- and 48/45-kDa antigens significantly inhibited IIC5-B10 binding to an average of 24.2% of control. The one serum which precipitated only the 48/45-kDa antigen did not inhibit IIC5-B10 binding. For 26 sera which were negative by immunoprecipitation, mean binding in the assay was 112.7% of control (pooled London nonimmune sera). Recognition of both 230-kDa and 48/45-kDa antigens was associated with a titer of 1:9 or greater (reciprocal geometric mean titer, 27.6) for inhibition to more than 2 standard deviations from the mean of the negative sera. The results show that the IIC5-B10 binding site is a naturally immunogenic epitope recognized by the majority of persons who had antibodies to the 48/45-kDa protein. An additional finding was enhancement of binding of IIC5-B10 to an average of 154.4% of control by five sera which recognized only the 230-kDa antigen, presumably due to conformational alteration of the gamete antigen complex.
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PMID:Naturally occurring antibodies to an epitope on Plasmodium falciparum gametes detected by monoclonal antibody-based competitive enzyme-linked immunosorbent assay. 245 62

The asynchronously developing malaria parasite Plasmodium berghei was synchronized using in vitro cultivation techniques (Mons et al. 1985). After the infection of naive mice, preparations of parasitized erythrocytes with a high level of synchronism could be obtained. Immunofluorescence and immunoblotting techniques using serum from immunized mice were applied to determine stage-specific immunogenic molecules in the parasitized erythrocyte preparations. These techniques allowed the detection of not only parasite-derived but also altered-self molecules. Membrane fluorescence of infected erythrocytes was detected only in preparations containing late trophozoites and schizonts. The appearance of this fluorescence pattern coincided with the presence of immunogenic polypeptides of mol. wt. greater than 200 kD, 86 kD, and 56 kD especially, among some other polypeptides. Preliminary experiments using lactoperoxidase-catalyzed radioiodination suggested that the greater than 200 kD and 56 kD molecules were present at the erythrocyte surface. One molecule with mol. wt. 153 kD was associated with the presence of ring-infected erythrocytes. However, membrane fluorescence of ring-stage-infected erythrocytes was not found. Noninfected erythrocytes sometimes showed membrane fluorescence.
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PMID:Stage-specific proteins of Plasmodium berghei-infected red blood cells detected by antibodies of immune mouse serum. 306 Aug 73

The renal pathology of 9 squirrel monkeys (Saimiri sciureus) with acute Plasmodium falciparum infection was studied by light and electron microscopy. Endocapillary proliferative glomerulonephritis was the major pathological change observed. The peroxidase anti-peroxidase method demonstrated the presence of IgG, IgM, and P. falciparum antigens in the mesangium and basement membrane. These findings were consistent with those seen in humans with acute P. falciparum infection and indicates that squirrel monkeys are likely to be a good model for the study of renal pathology in malaria research.
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PMID:Glomerulopathy in squirrel monkeys with acute Plasmodium falciparum infection. 327 66

A new and rapid malaria immunoperoxidase assay using the enzyme horseradish peroxidase in place of fluorescein isothiocyanate was developed to allow the serological measurement of antimalarial antibody by light microscopy. Acetone-fixed thin blood films prepared from cultured Plasmodium falciparum were used as the source of antigen. This malaria immunoperoxidase assay is as sensitive as, and occasionally more sensitive than, the indirect fluorescent antibody assay. It is easy to perform and the antigen used does not show cross-reactivity with sera from nonmalarial diseases.
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PMID:A sensitive malaria immunoperoxidase assay for the detection of Plasmodium falciparum antibody. 328 91

Plasmodium falciparum-infected erythrocytes attach to the endothelial cells via electron-dense knobs and this attachment has been suggested as one of the contributing factors in the development of cerebral malaria. Monoclonal antibodies against an 80-95 Kd knob protein were prepared and applied to brain tissue from cerebral malaria patients. The deposition of the 80-95 Kd knob protein antibodies was observed in the basement membrane of cerebral capillaries by the peroxidase anti-peroxidase method. This result indicates involvement of knob protein deposition in the pathogenesis of cerebral malaria.
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PMID:Knob antigen deposition in cerebral malaria. 331 20

An enzyme-linked immunosorbent assay for rapid detection of malarial antibodies and antigens was developed. Plasmodium falciparum antigen preparation, obtained from sonicated cultures of the parasite at a parasitemia of 10%-15%, was applied to cellulose filter discs in volumes of 0.1 microliter in 96-well microtiter plates. Antibodies were detected by successive incubations with: bovine serum albumin for blocking, tested serum at different dilutions, peroxidase-conjugated antihuman IgG, and the precipitable substrate 4-chloro-1-naphtol. Positive reactions appeared as blue dots on a white background which are easily read by eye. Pools of sera from patients with recent disease or from individuals with a history of malaria, contained antibodies detectable up to a dilution of 1:64,000. Negative results were obtained when normal RBC were used for dotting the filters. Normal sera showed no reaction at any antigen concentration. P. falciparum antigens were detected by their ability to inhibit the binding of antibody to the filters. RBC infected with P. falciparum in vitro can be detected at a level of 0.001% parasitemia. This report presents the feasibility of an assay for detecting malarial antibodies and antigens in blood samples which is easily applicable to field conditions.
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PMID:The feasibility of a Dot enzyme-linked immunosorbent assay (Dot-ELISA) for the diagnosis of Plasmodium falciparum antigens and antibodies. 354 51

Vaccination trials have shown that a purified, 74 kDa glycoprotein, GP74, isolated from the host cell membrane of Plasmodium knowlesi-infected rhesus erythrocytes, can provide protective immunity against P. knowlesi malaria. We have extended this work by a tryptic peptide analysis of the disposition of GP74 in the host cell membrane. Of the 18 peptides characterized by high-performance liquid chromatography only four were accessible to lactoperoxidase-catalyzed radioiodination of non-leaky, schizont-infected host cells from the extracellular space. Metabolic labeling with radioactive glucosamine indicates that two of the surface exposed peptides are glycopeptides, and one of these, peptide 12 appears to carry a dominant antigenic site, according to its reactivity with immunoglobulin from sera of monkeys protected against P. knowlesi malaria.
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PMID:Membrane orientation and antigenic peptides of an immunoprotective 74 kDa Plasmodium knowlesi glycoprotein. 373 96

During the recent development of a double antibody enzyme-linked immunosorbent assay for detecting malaria sporozoites in mosquitoes it was found that a large number of potentially useful monoclonal antibodies lost their capacity for binding antigen after conjugation to periodate-oxidized horseradish peroxidase (HPO). Since HPO reacts with primary amino groups, we used a simple chemical reaction with fluorodinitrobenzene (FDNB) to determine if the loss of antigen binding was due to the requirement for unmodified primary amino groups in the binding site. FDNB-treated antibodies which reacted with antigen in an indirect fluorescent antibody assay (IFA) also yielded successful HPO-antibody conjugates. Conversely, those antibodies which did not react with antigen after treatment with FDNB failed to produce useful HPO-antibody conjugates. These data suggest that conjugation of oxidized HPO to primary amines in or near the antigen-combining site yields conjugates in which the antibody is inactive. Use of FDNB to predict the suitability of antibodies for conjugation to periodate-oxidized HPO may save a considerable amount of time over randomly selecting antibodies for conjugation and testing.
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PMID:Use of fluorodinitrobenzene to identify monoclonal antibodies which are suitable for conjugation to periodate-oxidized horseradish peroxidase. 390 69

The SICA[-] or non-agglutinable phenotype of Plasmodium knowlesi schizont-infected erythrocytes has been defined serologically but not biochemically. Similarly, non-cloned SICA[+] or agglutinable parasites have been shown serologically to express SICA or variant antigen(s) but the number and nature of such antigens have not been defined. Here we describe the immunochemical analysis of surface antigen expression on [125I]lactoperoxidase-labelled erythrocytes infected either with a SICA[-] clone or with non-cloned SICA[+] parasites using the methods developed for identification of variant antigens with cloned SICA[+] parasites. No 125I-labelled antigens in the size range Mr 190 000-225 000 were specifically immunoprecipitated from erythrocytes infected with the SICA[-] clone, even using homologous antisera produced by multiple infections or immunizations. Further, no 125I-labelled proteins of this size were seen in detergent extracts of the SICA[-] parasites that were not also seen with uninfected cells. We conclude that the SICA[-]phenotype reflects the absence of a variant antigen at the erythrocyte surface, as predicted by the serological assays. In contrast, with the non-cloned SICA[+] parasites, a complex group of proteins, Mr 195 000-225 000, was identified by [125I]lactoperoxidase labelling of intact infected erythrocytes. These proteins are SICA antigens since they not only share the characteristic detergent solubility properties and size range of SICA antigens identified previously with SICA[+] clones, but they were only immunoprecipitated by antisera which reacted specifically with the surface of infected erythrocytes. Agglutinating sera immunoprecipitated several of these 125I-labelled antigens. Sera specific for clones derived from this non-cloned SICA[+] population failed to agglutinate, but did react by indirect immunofluorescence with 10-16% of infected cells. These sera specifically immunoprecipitated single, quantitatively minor 125I-labelled antigens in this size range. The results suggest that a population of non-cloned SICA[+] parasites contains at least 10 different variant-antigen phenotypes. Indirect immunofluorescence was also performed against a non-cloned SICA[+] population derived by antigenic variation of a SICA[+] clone in vivo. The variant population contained at least 3 antigenically distinct SICA phenotypes, indicating that antigenic variation of clones may produce populations as antigenically heterogenous as antigenic variation of uncloned lines. It is therefore likely that natural malaria isolates contain a large number of different variant antigens.
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PMID:Immunochemical analysis of surface membrane antigens on erythrocytes infected with non-cloned SICA[+] or cloned SICA[-] Plasmodium knowlesi. 390 20


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