UMLS:C0024530 - FACTA Search

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

Although the folate metabolic pathway in malaria parasites is a major chemotherapeutic target, resistance to currently available antifolate drugs is an increasing problem. This pathway, however, includes a number of enzymes that, to date, have not been characterized despite their potential for clinical exploitation. As a step towards evaluation of additional targets in this pathway, we report the isolation and characterization of 3 new genes that encode homologues of GTP cyclohydrolase I (GTP-CH), dihydrofolate synthase/folylpolyglutamate synthase (DHFS/FPGS) and serine hydroxymethyltransferase (SHMT). The genes encoding GTP-CH and SHMT are unambiguously assigned to chromosome 12, while that for DHFS/FPGS is tentatively assigned to chromosome 13. All 3 genes are expressed in blood-stage parasites, yielding transcripts of which only ca 60-70% is accounted for by coding sequence. All 3 of the proteins predicted to be encoded by these genes display sequence differences compared to the human host homologues that may be of functional significance. These data bring the complement of cloned genes that encode activities in the pathway to seven, leaving only the gene encoding dihydroneopterin aldolase (DHNA) to be identified in the route from GTP to folate synthesis and folate turnover in the thymidylate cycle.
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PMID:Characterization of three genes encoding enzymes of the folate biosynthetic pathway in Plasmodium falciparum. 1119 57

The elongation step of protein synthesis involves binding of aminoacyl-tRNA to the ribosomal A site, formation of a peptide bond and translocation of the newly formed peptidyl-tRNA to the P site. The nucleotide exchange factor EF-1beta plays a major role in the regulation of this process by regenerating a GTP-bound EF-1alpha necessary for each elongation cycle. EF-1beta has been shown to be phosphorylated and its phosphorylation is critical for optimal activity. We have previously identified a serine/threonine protein phosphatase 2C (PP2C) from the human malaria parasite Plasmodium falciparum. In the current work, we performed Far-Western analysis to identify PfPP2C substrates. Several components of the translation and transcription machinery were identified, including translation elongation factor 1-beta (PfEF-1beta). PfEF-1beta is efficiently phosphorylated by protein kinase C and this phosphorylation results in a 400% increase in its nucleotide exchange activity. PKC-phosphorylated PfEF-1beta is readily and selectively dephosphorylated by recombinant and native PfPP2C, which downregulates the nucleotide exchange activity to its basal level. The identification of a translation elongation component as substrate for PP2C suggests an important regulatory function for this enzyme and suggests that it may be a good target for drug design in the fight against malaria.
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PMID:Plasmodium protein phosphatase 2C dephosphorylates translation elongation factor 1beta and inhibits its PKC-mediated nucleotide exchange activity in vitro. 1125 17

Inducibility of the mouse gene imap38 in the spleen has been recently described to correlate with resistance to Plasmodium chabaudi malaria. Here, we characterize the human ortholog gene himap1. The HIMAP1 34 kDa protein is localizable at the endoplasmic reticulum in transfected cells. It contains a GTP-binding domain, but it does not bind GTP, in contrast to mouse IMAP38. The himap1 gene belongs to a gene family clustered on chromosome 7q32-36 within a region highly syntenic to the mouse imap38 locus on chromosome 6B. The himap genes 1, 2, 3, and 4 display a conserved intron/exon structure. The mRNA of the himap1 gene is predominantly expressed in the spleen, in lymph nodes to a lesser extent, and only at very low levels in diverse cancer cell lines. In accordance, imap-like genes in mice and plants are associated with proliferative and apoptotic events suggesting a role in the control of cell death/survival.
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PMID:Human ortholog to mouse gene imap38 encoding an ER-localizable G-protein belongs to a gene family clustered on chromosome 7q32-36. 1181 88

A cDNA encoding transportin, a protein involved in the nuclear import of M9 nuclear localization signal-bearing proteins, has been cloned from the malaria parasite Plasmodium falciparum. The complete cDNA consists of 3,667 bp encoding 1,136 amino acid residues. Amino acid sequence analysis revealed that Ran-GTP and M9 binding domains are highly conserved in P. falciparum, suggesting that the transportin-mediated nuclear transport pathway exists in this protozoan parasite. Southern blot analysis revealed that the transportin gene exists as a single copy in the malarial genome.
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PMID:Molecular cloning and characterization of Plasmodium falciparum transportin. 1204 53

Respiration, membrane potential, and oxidative phosphorylation of mitochondria of Plasmodium yoelii yoelii trophozoites were assayed in situ after permeabilization with digitonin. ADP induced an oligomycin-sensitive transition from resting to phosphorylating respiration in the presence of oxidizable substrates. A functional respiratory chain was demonstrated. In addition, the ability of the parasite to oxidize exogenous NADH, as well as the insensitivity of respiration to rotenone and its sensitivity to flavone, suggested the presence of an alternative NADH-quinone (NADH-Q) oxidoreductase. Rotenone-insensitive respiration and membrane potential generation in the presence of malate suggested the presence of a malate-quinone oxidoreductase. These results are in agreement with the presence of genes in P. yoelii encoding for proteins with homology to NADH-Q oxidoreductases of bacteria, plant, fungi, and protozoa and malate-quinone oxidoreductases of bacteria. The complete inhibition of respiration by antimycin A and cyanide excluded the presence of an alternative oxidase as described in other parasites. An uncoupling effect of fatty acids was partly reversed by bovine serum albumin and GTP but was unaffected by carboxyatractyloside. These results provide the first biochemical evidence of the presence of an alternative NADH-Q oxidoreductase and a malate-quinone oxidoreductase and confirm the operation of oxidative phosphorylation in malaria parasites.
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PMID:Oxidative phosphorylation and rotenone-insensitive malate- and NADH-quinone oxidoreductases in Plasmodium yoelii yoelii mitochondria in situ. 1456 63

High molecular weight ADP ribosylation factor GDP-GTP exchange factors (ARF-GEF) play an essential role in the formation of COP I coated transport vesicles and are characterized by a structurally and functionally conserved sec 7 domain. The genome of the malaria parasite Plasmodium falciparum encodes a single ARF-GEF that contains an unusual sec 7 domain. In comparison to the sec 7 domain of other eukaryotes, the plasmodial sec 7 domain is characterized by an insertion sequence of 146 amino acids that disrupt helices essential for the GDP-GTP exchange activity of the protein. In a previous study we have shown a correlation between a methionine to isoleucine exchange in helix H of the sec 7 domain and resistance to brefeldin A in a parasite line generated by drug selection. Here we have transfected brefeldin A sensitive parasites with plasmid constructs containing the sec 7 domain of the resistant line either with or without the insertion sequence. Transfection with sec 7 sequences including the insertion resulted in brefeldin A resistant parasites in which double cross-over recombination had replaced the endogenous sec 7 sequences with the transgenic sequences. Thus, the point mutation in helix H is sufficient to confer brefeldin A resistance in P. falciparum. Transfections using constructs lacking the insertion did not result in resistant parasites. Gene replacement by targeted double cross-over recombination is a rare event in P. falciparum. This approach has taken advantage of the fact that the successful integration of the transgene results in a drug selectable phenotype. We anticipate that the strategy described here will be useful for the identification of mutations within target genes that have the potential to confer increased drug resistance.
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PMID:Double cross-over gene replacement within the sec 7 domain of a GDP-GTP exchange factor from Plasmodium falciparum allows the generation of a transgenic brefeldin A-resistant parasite line. 1550 Sep 15

The IMAP/IAN family of AIG1-like GTPases is conserved among vertebrates and angiosperm plants and has been postulated to regulate apoptosis, particularly in context with diseases such as cancer, diabetes, and infections. The human genes were recently renamed as gimap for GTPase of the immunity associated protein (GIMAP) family. Here we extend this new nomenclature to the murine gimap gene family. All gimap genes of the mouse are clustered on chromosome 6B with eight functional members and one pseudogene. The mGIMAP proteins contain one GTP-binding site and display molecular masses between 33 and 38 kDa except for the very unusual 77 kDa mGIMAP8 protein, which is the first characterized protein containing three GTP-binding domains. Northern blot analysis revealed expression of mgimap8 predominantly in the thymus. The low expression level observed in the spleen was further suppressed by Plasmodium chabaudi malaria. Confocal laser scanning microscopy demonstrated localization of mGIMAP8 at ER, Golgi, and mitochondria. Overexpression of mGIMAP8 could significantly impair anisomycin-induced activation of caspase 3. Our data support the view that mGIMAP8 exerts an anti-apoptotic effect in the immune system and is involved in responses to infections.
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PMID:Malaria-suppressible expression of the anti-apoptotic triple GTPase mGIMAP8. 1608 18

Odor sensitivity may not be due to odor-receptor (OR) binding but rather may be due to emergent properties of transduction pathways and the anatomical convergence of olfactory neurons. A recent study suggests that odor-OR interactions are brief and infrequently activate heterotrimeric GTP-binding proteins (G proteins); in contrast, visual receptors have long-lasting activation states and activate many G proteins. These differences may reflect strategies that evolved to accommodate very different signals, and the mechanisms described might be applicable for receptors across phyla. However, whereas visual receptors (rhodopsin) appeared before protostome-deuterostome separation, ORs may be independently derived in different phyla. Alternatively, phylum-distinct ORs may share common ancestry but be influenced by diversifying selection. Phylum-distinct ORs may imply phylum-specific OR mechanisms, whereas common ancestry may imply common mechanisms. Nonetheless, most animals detect a similar repertoire of olfactory signals, and OR mechanisms may be convergent on those signals independent of receptor relatedness. Thus, recent insights into the molecular characteristics of odor perception in frogs may well be relevant to such processes as how mosquitoes detect host odors for a malaria-transmitting blood meal.
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PMID:How sensitive is a nose? 1647 39

The particular virulence of the human malaria parasite Plasmodium falciparum derives from export of parasite-encoded proteins to the surface of the mature erythrocytes in which it resides. The mechanisms and machinery for the export of proteins to the erythrocyte membrane are largely unknown. In other eukaryotic cells, cholesterol-rich membrane microdomains or "rafts" have been shown to play an important role in the export of proteins to the cell surface. Our data suggest that depletion of cholesterol from the erythrocyte membrane with methyl-beta-cyclodextrin significantly inhibits the delivery of the major virulence factor P. falciparum erythrocyte membrane protein 1 (PfEMP1). The trafficking defect appears to lie at the level of transfer of PfEMP1 from parasite-derived membranous structures within the infected erythrocyte cytoplasm, known as the Maurer's clefts, to the erythrocyte membrane. Thus our data suggest that delivery of this key cytoadherence-mediating protein to the host erythrocyte membrane involves insertion of PfEMP1 at cholesterol-rich microdomains. GTP-dependent vesicle budding and fusion events are also involved in many trafficking processes. To determine whether GTP-dependent events are involved in PfEMP1 trafficking, we have incorporated non-membrane-permeating GTP analogs inside resealed erythrocytes. Although these nonhydrolyzable GTP analogs reduced erythrocyte invasion efficiency and partially retarded growth of the intracellular parasite, they appeared to have little direct effect on PfEMP1 trafficking.
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PMID:Delivery of the malaria virulence protein PfEMP1 to the erythrocyte surface requires cholesterol-rich domains. 1668 62

The enzyme protein:geranylgeranyl transferase-1 (PGGT-1 or GGTase-I) catalyzes the geranylgeranylation of cysteine residues near the C-termini of a variety of proteins, including most monomeric GTP binding precursor proteins belonging to the Rho, Rac and Rap subfamilies. These proteins are involved in signaling pathways controlling important processes such as cell differentiation and growth. In the framework of the development of therapeutics against disorders associated with aberrant cell proliferation, the interference with these signal transduction cascades has been a major focus of investigation. For instance inhibitors of PGGT-1 have shown promise in the treatment of cancer, smooth muscle hyperplasia as well as parasitic infections, such as malaria. In this review, structural and mechanistic aspects of the protein:geranylgeranyl transferases are discussed as well as their importance with respect to the terpene metabolism. An extensive summary of reported inhibitors of PGGT-1, classified as natural products, peptide substrate (Ca(1)a(2)L box), terpene substrate (geranylgeranyl pyrophosphate) and others, is presented. The few known inhibitors of the other geranylgeranylating enzyme, protein:geranylgeranyl transferase-2 (PGGT-2), are also included.
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PMID:Inhibitors of protein: geranylgeranyl transferases. 1691 62

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