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

The intracellular development of malaria parasites in mature erythrocytes imposes on the host cell a major demand for supply of nutrients and disposal of waste products. So as to cope with these demands, the erythrocyte membrane undergoes profound alterations in its basic permeability properties. A few hours after being invaded by Plasmodium falciparum parasites, and before any structural changes are apparent on the surface, the molecular traffic across the red cell membrane changes both in intensity and in composition of permeating substances. The changes are of a gradual nature, developmentally related and dependent on de novo protein synthesis, but do not occur concurrently for all the classes of permeants. Molecules which permeate very poorly into uninfected cells, such as hexitols (e.g., sorbitol and myoinositol), amino acids (e.g., glutamine, threonine, and histidine), a variety of organic acids and metal ions show a marked increase in their permeation rates across the host cell membrane. Likewise, substances whose normal permeation pathways conform with those of facilitated diffusion (e.g., hexoses, nucleosides, choline, and some amino acids), gain access into the host cytosol either by modified or additional permeation pathways. It has been proposed that three major new pathways are induced in the membrane of infected cells: (1) one of pore-like properties, which can accommodate most of the water soluble permeants, including anionic substances; (2) a protein-lipid interface, which can accommodate compounds of relatively higher hydrophobic character; and (3) modified constitutive transporters or modified lipid surroundings with altered transport activities. The pores are blocked by permeant bioflavonoid glycosides whose sites of binding are endofacial, and amount to less than a thousand per cell. In addition to serving as specific targets for transport blockers, the new sites of permeation can also serve as routes for enhanced delivery of cytotoxic agents into parasitized cells.
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PMID:Properties of permeation pathways induced in the human red cell membrane by malaria parasites. 209 85

The effects of dietary p-aminobenzoic acid (PABA), protein, methionine and threonine on Plasmodium berghei infection in mice were investigated. Animals were fed diets containing 12 or 20% casein supplemented with PABA (0 or 2 mg/kg diet), methionine (0 or 15 mg/g casein) and threonine (0, 7.5, 27.5 or 47.5 mg/g casein). Percent mortality was lower in rats fed diets without PABA than in those fed diets containing PABA. All further experiments were conducted without supplemental PABA. While the mean day of death was greater in the groups fed 12% casein, percent mortality in these groups was nearly twofold higher than in the groups fed 20% casein. The presence or absence of 15 mg methionine per gram casein had no effect on percent mortality, mean day of death, or percent parasitemia, regardless of dietary casein level. Supplementation of threonine at any level to the 12% casein diet with supplemental methionine resulted in mortality rates similar to those from animals fed the 20% casein diets, but percent mortality was not altered by threonine in the absence of supplemental methionine. The mean day of death of animals fed 20% casein increased with increments of added threonine. Methionine had no influence on this phenomenon. It is concluded that the quantity of dietary protein and the quality of its amino acid composition can have profound effects on the susceptibility of mice to malaria.
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PMID:Effects of p-aminobenzoic acid, methionine, threonine and protein levels on susceptibility of mice to Plasmodium berghei. 393 51

The protein CD36 is a membrane receptor for thrombospondin (TSP), malaria-infected erythrocytes, and collagen. Three functional sequences were identified within a single disulfide loop of CD36: one that mediates TSP binding (amino acids 87 to 99) and two that support malarial cytoadhesion (amino acids 8 to 21 and 97 to 110). One of these peptides (p87-99) is a consensus protein kinase C (PKC) phosphorylation site. Dephosphorylation of constitutively phosphorylated CD36 in resting platelets and a megakaryocytic cell line led to the loss of collagen adhesion and platelet reactivity to collagen, with a reciprocal increase in TSP binding. PKC-mediated phosphorylation of this ectodomain resulted in a loss of TSP binding and the reciprocal acquisition of collagen binding. In site-directed mutagenesis studies, when the threonine phosphorylation site was changed to alanine, CD36 was expressed in a dephosphorylated state and bound to TSP constitutively.
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PMID:Analysis of CD36 binding domains: ligand specificity controlled by dephosphorylation of an ectodomain. 750 22

Several cellular and humoral mechanisms probably play a role in natural immunity to Plasmodium falciparum malaria, but the development of an effective vaccine has been impeded by uncertainty as to which antigens are targeted by protective immune responses. Experimental models of malaria have shown that cytotoxic T lymphocytes (CTL) which kill parasite-infected hepatocytes can provide complete protective immunity against certain species of Plasmodium in mice, and studies in The Gambia have provided indirect evidence that CTL play a protective role against P falciparum in humans. By using an HLA-based approach, termed reverse immunogenetics, we have previously identified peptide epitopes for CTL in liver-stage antigen-1 and the circumsporozoite protein of P falciparum. We have extended this work to identify CTL epitopes for HLA class I antigens that are found in most individuals from Caucasian and African populations. Most of these epitopes are in conserved regions of P falciparum. CTL peptide epitopes were found in a further two antigens, thrombospondin-related anonymous protein and sporozoite threonine and asparagine rich protein, indicating that a subunit vaccine designed to induce a protective CTL response may need to include parts of several parasite antigens. However, CTL levels in both children with malaria and in semi-immune adults from an endemic area were low suggesting that boosting these low levels by immunisation might provide substantial or even complete protection against infection and disease.
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PMID:Identification of conserved antigenic components for a cytotoxic T lymphocyte-inducing vaccine against malaria. 753 70

Following infection by the malaria parasite, human erythrocytes show increased uptake of a wide variety of low molecular weight solutes via pathways with functional characteristics different from those of the transporters of normal erythrocytes. In this study glibenclamide and meglitinide were shown to inhibit the induced transport of a sugar alcohol (sorbitol), an amino acid (threonine), an inorganic anion (Cl-) and an organic cation (choline) into human erythrocytes infected in vitro with Plasmodium falciparum. The results are consistent with the hypothesis that a diverse range of substrates enter malaria-infected cells via common pathways which have features in common with Cl- channels in other cell types. glibenclamide and meglitinide were also shown to inhibit the in vitro growth of the intracellular parasite which would suggest that these pathways may be a viable chemotherapeutic target.
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PMID:Glibenclamide and meglitinide block the transport of low molecular weight solutes into malaria-infected erythrocytes. 849 24

Phospholipid-containing antigens of malaria parasites stimulate macrophages to secrete tumour necrosis factor (TNF), induce hypoglycaemia and are toxic to mice. This TNF induction is inhibited by antisera made against the antigens, the inhibitory activity of which can be removed specifically by adsorption to phosphatidylinositol (PI) liposomes. Although the same was true of antisera made against PI, the inhibitory activity of antisera made against some other phospholipids appeared to be directed against a common determinant, probably the phosphate ester head group. We have shown previously that the activity of all the antisera was associated mainly with IgM and was not boosted by repeated injections of the antigens. To try and induce a secondary response against the parasite antigens using non-toxic molecules, mice were immunized with various phosphorylated compounds coupled to keyhole limpet haemocyanin (KLH). Three injections of PI-KLH or of phosphatidylserine (PS) coupled to KLH induced significantly higher titres of inhibitory antibody than one; furthermore, the inhibitory activity was mainly in the IgG fraction. The antisera did not inhibit TNF induction by lipopolysaccharide (LPS) or lipoteichoic acid. However, antisera against PS-KLH, though not PI-KLH, inhibited the induction of TNF by the phospholipid, platelet-activating factor (PAF). These antisera, and antisera from mice immunized with phospho-threonine or galactosamine-1-phosphate conjugated to KLH, contained inhibitory antibodies of differing specificities. Mice immunized with PI-KLH, PS-KLH or phospho-threonine-KLH did not develop hypoglycaemia when challenged with the parasite toxic antigens. These results indicate that the antigenicity of non-toxic analogues can be dramatically enhanced by coupling to a protein carrier.
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PMID:Phospholipids coupled to a carrier induce IgG antibody that blocks tumour necrosis factor induction by toxic malaria antigens. 850 34

We have examined the effects of seven protein kinase inhibitors (staurosporine, genistein, methyl 2,5-dihydroxycinnamate, tyrphostins B44 and B46, lavendustin A and R03) on the erythrocytic cycle of the malaria parasite, Plasmodium falciparum. One (staurosporine) strongly inhibits serine/threonine kinases, but the remainder all exhibit a strong preference for tyrosine kinases. We have been able to discriminate between effects on invasion and on intraerythrocytic development. All reagents impeded development of intraerythrocytic parasites, though at widely differing concentrations, from the sub-micromolar to the millimolar. Several inhibitors, including staurosporine, also reduced invasion. The phosphatase inhibitor, okadaic acid, had a strong inhibitory effect both on invasion and development. The regulation of malaria development by phosphorylation or dephosphorylation reactions at several points in the blood-stage cycle is implied.
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PMID:Inhibition of invasion and intraerythrocytic development of Plasmodium falciparum by kinase inhibitors. 869 1

Infection of human erythrocytes with the malaria parasite Plasmodium falciparum induces many morphological and biochemical changes in the host cell. Host serine/threonine protein kinases could be involved in some of these processes. The aim of this study was to determine the effect of infection on red blood cell protein kinase C (PKC) and establish the importance of this enzyme in parasite growth and sexual stage differentiation. Phorbol myristate acetate (PMA)-induced translocation of erythrocyte PKC activity is impaired in erythrocytes enriched for mature asexual stage infected cells. Western blotting shows that this is due to a relative reduction in membrane PKC protein levels rather than inhibition of enzyme activity and analysis of PKC activity isolated from whole cell lysates by DE52 chromatography suggests that total activatable PKC levels are lower in infected erythrocytes. A reduction in PMA-induced activation is also observed in PKC assays performed in situ. Downregulation of erythrocyte PKC by overnight incubation with PMA before infection causes a significant decrease in the rate of the asexual growth, suggesting that the enzyme, although lost later in infection, may be important in the earlier development of the parasite. By contrast, the lack of PKC had no effect on the production of sexual stage parasites.
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PMID:Modulation of protein kinase C activity in Plasmodium falciparum-infected erythrocytes. 905 62

Some individuals living in malaria-endemic areas have CTL to Plasmodium falciparum liver stage Ags. We have quantified these CTL responses using limiting dilution analysis studies on the peripheral blood cells of naturally exposed Gambian donors. CTL precursor frequencies were determined to a wide range of epitopes derived from different liver stage Ags (liver stage protein 1, circumsporozoite protein, thrombospondin-related anonymous protein, and sporozoite threonine/asparagine-rich protein) restricted through common HLA alleles present in this population (HLA-A2.1, -A2.2, -B7, -B8, -B35, and B53). Precursor frequencies were between 17 and 98/million PBMC and correlated with the levels of specific lysis in parallel bulk cultures. The quantitative nature of limiting dilution assay analysis revealed varying degrees of immunodominance in the CTL responses to different epitopes within single proteins (thrombospondin related anonymous protein: tr42, tr43, tr26, tr29, and tr39; circumsporozoite protein: cp6, cp26, and cp29) and within individual donors. The temporal stability of some of these CTL responses was determined over a 4-yr period. This is the first quantitative study of CTL specific for any plasmodial species or nonviral pathogen in humans and provides a basis for a multiepitope approach to malaria vaccination.
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PMID:Precursor frequency analysis of cytotoxic T lymphocytes to pre-erythrocytic antigens of Plasmodium falciparum in West Africa. 905 21

Chitinases that function in the molting of the larval exoskeleton have been characterized previously. However, chitinase expression in an adult insect gut has not been described. Here we report on the initial characterization and cloning of a novel chitinase gene that is expressed specifically in the midgut of adult Anopheles gambiae females. Upon feeding, chitinase is secreted into the gut lumen as an inactive pro-enzyme that is later activated by trypsin. Thus, temporal regulation of chitinase activity is tightly coupled to the temporal pattern of trypsin secretion. The enzyme may play a role in structuring the chitin-containing extracellular peritrophic matrix, whose formation is also induced by feeding. A chitinase cDNA was cloned from a library enriched for gut-specific sequences. The open reading frame encodes a 525-amino acid protein comprised of a putative catalytic domain at the N terminus, a putative chitin-binding domain at the C terminus, and a threonine/serine/proline-rich amino acid stretch in between them. Northern analysis indicates that this chitinase is expressed exclusively in the guts of adult females and not in adult carcasses or in any larval or pupal tissues. The present findings suggest the possibility of using this chitinase as an antigen for a malaria transmission-blocking vaccine.
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PMID:Characterization of a novel gut-specific chitinase gene from the human malaria vector Anopheles gambiae. 936 Sep 58


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