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 asexual stages of Plasmodium living within the erythrocyte result in growth-related changes in the permeability properties of the red cell for substances such as glucose, amino acids, purine nucleosides, sodium, potassium, calcium, zinc, iron and several antimalarial drugs such as chloroquine, amodiaquine and mefloquine. In most cases such changes do not appear to be due to a modification in the affinity or specificity of red cell transporters; indeed, for most substances the membrane-associated transporters are either unaffected or are partially inactivated. In malaria-infected erythrocytes, where a striking increase in influx has been observed, it has been attributed to the insertion of parasite-encoded transporters into the red cell membrane or the formation of aqueous leaks and/or pores. Leak formation, in the vast majority of cases, does not appear to be dependent on the insertion of plasmodial proteins into the red cell membrane. However, since the data presently available are less than satisfactory for discriminating amongst the various possible transport mechanisms future studies will require painstaking efforts and carefully controlled conditions to discriminate amongst the various transport systems which are operational in the malaria-infected red cell and the parasite.
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PMID:The Wellcome Trust lecture. Mechanisms of molecular trafficking in malaria. 328 92

The immunodominant repeat region of the malaria circumsporozoite protein from Plasmodium falciparum was purified from a recombinant Escherichia coli to study as a potential subunit vaccine. The recombinant protein, R32Leu-Arg, is composed of 32 tetrapeptide repeat sequences from the circumsporozoite protein (R32) linked to the dipeptide, Leu-Arg. R32Leu-Arg was purified by a series of precipitation steps including temperature, ammonium sulfate, and acid pH treatments; followed by reversed-phase high-performance liquid chromatography (RP-HPLC). An automated RP-HPLC assay was developed to measure the R32Leu-Arg concentration during both fermentation and purification. This assay was used in a variety of applications including measurement of production levels of the antigen during fermentation, evaluation of the protein purification process, quantitation of protein recovery, and as one criterion of protein purity. With minimal changes, the assay conditions were easily adapted to the semi-preparative level to produce 200 mg of purified product. The purified product was characterized by sodium dodecyl sulfate-polyacrylamide gel electrophoresis; amino acid composition; and analytical size-exclusion and RP-HPLC.
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PMID:Assay, purification and characterization of a recombinant malaria circumsporozoite fusion protein by high-performance liquid chromatography. 332 67

Some immune sera that inhibit erythrocyte invasion by merozoites also agglutinate the merozoites as they emerge from rupturing schizonts. These immune clusters of merozoites (ICM) possess a surface coat that is cross-linked by antibody and is thicker than the surface coat associated with normal merozoites (NM) obtained from cultures containing preimmune serum. Analysis of metabolically labeled ICM and NM performed by using sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that washed ICM possessed immune complexes containing antigens representative of schizonts and merozoites. Characteristics of the immune complexes included: a) they were not soluble in pH 8 Triton X-100, b) they were soluble at an acid pH, and c) after pH neutralization they were precipitated by using staphylococcal protein A. Merozoite antigens having Mr of 83, 73, and 45 kDa were associated with immune complexes in ICM. The 83 and 73 kDa antigens were recovered in considerably larger quantities from ICM than from NM. Schizont antigens having Mr of 230, 173 (triplet), 152 (doublet), and 31 kDa were associated with immune complexes in ICM, and a 195 kDa antigen(s) from schizonts and merozoites was also present in the immune complexes. In addition, other antigens of Mr 113, 101, 65, and 51 kDa may have been immune complexed. These 15 antigens accounted for less than 30% of the schizont and merozoite antigens recognized by the immune serum. Immune complexes probably formed between antibodies and a) surface antigens of schizont-infected erythrocytes exposed to antibody before schizont rupture, b) surface antigens of merozoites and schizonts exposed during schizont rupture, and c) soluble antigens normally released during schizont rupture. The antibody components of the immune complexes may have prevented rapid degradation or shedding of some antigens from the merozoite surface. Allowing schizonts to rupture in the presence of inhibitory antibodies (to form ICM) is a useful approach to identifying exposed targets of protective immunity against malaria.
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PMID:Plasmodium falciparum antigens synthesized by schizonts and stabilized at the merozoite surface by antibodies when schizonts mature in the presence of growth inhibitory immune serum. 351 11

Transport of nutrients into animal cells is driven by transmembrane gradient of Na+ across the plasma membrane. The protozoan malaria parasite, Plasmodium falciparum, however, grows within the host human erythrocytes, in which the cytoplasmic concentration of Na+ is maintained low by the membrane Na+, K+-ATPase. Our experiments show that human erythrocytes enriched with Na+ by treatment with ouabain (an inhibitor of the ATPase) will support the growth of P. falciparum in culture.
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PMID:Growth of Plasmodium falciparum in sodium-enriched human erythrocytes. 351 4

The human malaria parasite Plasmodium falciparum synthesizes several proteins that are unusually rich in histidine. We therefore screened histidine analogues for their capacity to inhibit in vitro parasite growth. Analogues were added to cultures of ring-stage parasites, and parasite morphological development was assessed by light microscopy after a 22-hr culture. Inhibition of morphological development was identified as the appearance of condensed or pycnotic parasites rather than mature trophozoites. Inhibition of parasite protein synthesis was assessed by radioactivity counting of [3H] isoleucine incorporated into acid-insoluble products and by sodium dodecyl sulfate polyacrylamide gel electrophoresis and fluorography of [3H]histidine-labeled malarial proteins. 2-F-L-Histidine and 2-I-D, L-histidine exerted the most pronounced inhibitory effects, the fluoro-analogue being the more effective of the two. At a 0.125 mM concentration, both compounds inhibited parasite growth and 2-F-L-histidine also inhibited protein synthesis. At a 1.0 mM concentration, 2-azido-L-histidine, alpha-methyl-L-histidine and WR 177589A also inhibited P. falciparum growth and protein synthesis. Twenty other histidine analogues, including 5-F-L-histidine and 5-I-L-histidine, showed little or no effect under these conditions. The inhibitory histidine analogues may be of interest for antimalarial chemotherapy if they should prove to have greater effect on P. falciparum protein synthesis than on host protein synthesis.
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PMID:Inhibitory effects of histidine analogues on growth and protein synthesis by Plasmodium falciparum in vitro. 351 22

A novel antigen of asexual blood stages of the rodent malaria parasite Plasmodium chabaudi, was detected by means of a modified indirect immunofluorescence assay (IFA), using glutaraldehyde fixed and air dried monolayers of P. chabaudi infected erythrocytes. P. chabaudi hyperimmune sera gave a distinct surface immunofluorescence of erythrocytes infected with early stages of the parasite. Fixation and drying of the erythrocytes was necessary for the antigenic activity to be exposed. The antigens were species specific as P. chabaudi hyperimmune serum only stained P. chabaudi but not P. yoelii or P. falciparum infected erythrocytes. The antigenic activity involved in the IFA was resistant to trypsin, phospholipases and neuraminidase but not to pronase, suggesting that the antigens were polypeptides. The surface immunofluorescence was inhibited by an extract of parasitized erythrocytes, but not by similar extracts of normal erythrocytes. The inhibitory antigens were soluble and heat stable (100 degrees C, 5 min). For identification and characterization of the antigens, antibodies were isolated by acid elution from monolayers of infected erythrocytes and monoclonal antibodies were produced. Probing in immunoblotting of extracts of parasitized erythrocytes separated by sodium dodecyl sulfate polyacrylamide gel electrophoresis with the eluted antibodies, showed that they reacted consistently with a polypeptide of Mr 105 000 (Pch105). The Pch105 antigen shares many characteristics with Pf155, a P. falciparum antigen considered as a candidate for a vaccine against that parasite.
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PMID:Identification of a Plasmodium chabaudi antigen present in the membrane of ring stage infected erythrocytes. 352 47

T lymphocyte clones specific for malarial (Plasmodium falciparum) blood stage antigens were obtained from acutely infected patients or from donors living in a malaria-endemic area of West Africa. Thirty-four clones carrying the CD4 antigen, and one CD8+ clone, were tested in a proliferation assay for their capacity to recognize P. falciparum isolates of different geographical origins. Only one clone distinguished between different parasite isolates (it failed to react with a parasite isolate originating from East Africa, but did recognize West African and Asian isolates). All of the clones responded well to intact erythrocytes containing viable parasites, but some responded poorly to extracts of parasitized cells. Eight of 19 clones studied (all CD4+) recognized parasite antigens which had characteristic mobilities in sodium dodecyl sulfate-containing polyacrylamide gels. The antigens had apparent molecular weights of about 20,000, 35,000, 40,000, 120,000, 150,000-200,000 and 200,000. These results (together with a previous report of two clones recognizing an antigen of molecular weight about 50,000, Sinigaglia and Pink, EMBO J. 1985. 4:3819) show that T cells in infected individuals react with at least 6 different parasite proteins.
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PMID:Plasmodium falciparum-specific human T cell clones: recognition of different parasite antigens. 354 26

The usefulness of sodium artesunate (3), a water-soluble derivative of artemisinin (1), is impaired by its poor stability in aqueous solution. To overcome the ease of hydrolysis of the ester group in 3, a new series of derivatives of dihydroartemisinin (2) was prepared in which the solubilizing moiety, which contains a carboxylate group, is joined to dihydroartemisinin by an ether rather than an ester linkage. The new derivatives were prepared in good yield by treatment of dihydroartemisinin with an appropriate alcohol under boron trifluoride etherate catalysis at room temperature. All major condensation products are the beta isomer. Hydrolysis of the esters with 2.5% KOH/MeOH gave the corresponding potassium salts, which were converted to free acids (8b-d) by acidification. The derivatives were tested in vitro against two clones of human malaria, Plasmodium falciparum D-6 (Sierra Leone clone) and W-2 (Indochina clone). No cross-resistance to the antimalarial agents mefloquine, chloroquine, pyrimethamine, sulfadoxine, and quinine was observed. In general, the new compounds are more effective against the W-2 than the D-6 strain. Esters (5a-d) possess activity comparable to that of the parent compounds 1 and 2; however, conversion of the esters to their corresponding carboxylates (7a-d) or acids (8b-d), with the exception of artelinic acid (8d), drastically decreases the antimalarial activities in both cell lines. Artelinic acid, which is both soluble and stable in 2.5% K2CO3 solution, possesses superior in vivo activity against Plasmodium berghei than artemisinin or artesunic acid.
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PMID:Antimalarial activity of new water-soluble dihydroartemisinin derivatives. 366 21

Free parasites were isolated from Plasmodium chabaudi-infected rat erythrocytes by N2-cavitation and purified on Percoll gradients. The membrane potential of the free parasites determined from the transmembrane distribution of the lipophilic cation, tetraphenylphosphonium, was -93 +/- 10 mV for late stage parasites and -90 +/- 3 mV for ring forms. Studies with intact infected erythrocytes demonstrated that the membrane potential of ring forms was much smaller compared to late trophozoites and schizonts and thus the present findings with free parasites suggest that host cell cytoplasmic factors may determine the magnitude of the parasite membrane potential. Both extracellular pH and [Na+] were found to modify the membrane potential of free parasites. Electrogenic protonophores, the H+-ATPase inhibitor dicyclohexylcarbodiimide and orthovanadate collapsed the potential of free parasites. Ouabain (or its membrane permeant derivative, strophanthidin), and oligomycin were without effect. These inhibitor studies suggest that an electrogenic H+-ATPase similar to that found in yeast generates in part the membrane potential of malaria parasites. Using weak acid distribution or a pH sensitive fluorescent dye, it was demonstrated that free parasites maintain an alkaline intracellular pH at extracellular pH greater than 6.5. The pH gradient was partially collapsed by orthovanadate or dicyclohexylcarbodiimide and by substitution of Na+ for K+ in the suspending buffer. The H+-ATPase and K+:H+ exchange may therefore both contribute to regulation of intracellular pH in Plasmodium.
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PMID:Membrane potential of erythrocytic stages of Plasmodium chabaudi free of the host cell membrane. 377 36

The herb Artemisia annua has been used for many centuries in Chinese traditional medicine as a treatment for fever and malaria. In 1971, Chinese chemists isolated from the leafy portions of the plant the substance responsible for its reputed medicinal action. This compound, called qinghaosu (QHS, artemisinin), is a sesquiterpene lactone that bears a peroxide grouping and, unlike most other antimalarials, lacks a nitrogen-containing heterocyclic ring system. The compound has been used successfully in several thousand malaria patients in China, including those with both chloroquine-sensitive and chloroquine-resistant strains of Plasmodium falciparum. Derivatives of QHS, such as dihydroqinghaosu, artemether, and the water-soluble sodium artesunate, appear to be more potent than QHS itself. Sodium artesunate acts rapidly in restoring to consciousness comatose patients with cerebral malaria. Thus QHS and its derivatives offer promise as a totally new class of antimalarials.
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PMID:Qinghaosu (artemisinin): an antimalarial drug from China. 388 71


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