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)

A relationship was found between resistance of malarial plasmodium to chloroquine and the increased activity of microsomal monooxygenases, metabolizing drugs in the parasite. A search for effective inhibitors of the enzymatic system was initiated. For this purpose inhibitory effects of 17 alpha-hydrodeoxycorticosterone (substance S), 21-acetate-17 alpha-hydroxydeoxycorticosterone (acetate of substance S), 4-bromomethyl-2,2,5,5-tetramethyl-3-imidazoline-3-oxide-1-oxyl (RBr), Cu(lysine)2 on activity of arylhydroxycarbone hydroxylase were studied using mice liver microsomes and homogenate of mice malaria cells Plasmodium berghei. Cu(lysine)2 and phenylhydrazine were found to be the most effective inhibitors of the enzyme in samples containing mice liver microsomes or malarial parasite. The data obtained suggest that the inhibitors of microsomal monooxygenases may serve as means for a decrease in malarial parasite resistance to chloroquine.
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PMID:[Microsomal monooxygenase inhibitors as promising agents for overcoming the drug resistance of the malaria parasite]. 391 72

The effect of protease inhibitors on invasion of rhesus erythrocytes by Plasmodium knowlesi merozoites was evaluated. Chymostatin, N-alpha-p-tosyl-L-lysine chloromethyl ketone (TLCK), and L-1-tosylamide-2-phenylethylchloromethyl ketone (TPCK) inhibited invasion. Leupeptin, antipain, pepstatin, and phenylmethylsulfonyl fluoride (PMSF) had no effect. TLCK and TPCK inhibited attachment of merozoites to host erythrocytes. Chymostatin had no adverse effect on attachment, and in its presence junction formation between the merozoite and host erythrocyte occurred. Both chymostatin and leupeptin inhibited normal rupture of schizont-infected erythrocytes. It is suggested that proteolytic activity may be important both in the rupture of schizont-infected erythrocytes and in the invasion of erythrocytes by malaria parasites.
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PMID:Plasmodium knowlesi: studies on invasion of rhesus erythrocytes by merozoites in the presence of protease inhibitors. 685 69

In this report we describe a novel gene delivery system using malaria circumsporozoite (CS) protein as a specific ligand. The CS protein covers the entire surface of sporozoites of malaria parasites. Previous studies have demonstrated that intravenously injected CS protein binds specifically to the basolateral surface of hepatocytes within minutes, indicating the high hepatocyte specificity of CS protein. This characteristic of CS protein prompted us to explore the possibility of using this protein as a liver-specific ligand for hepatic gene delivery vehicle. As an initial step, we investigated the efficacy of CS protein-mediated gene transfer into primary hepatocytes as well as established cell lines. Recombinant CS proteins were chemically conjugated to poly(L-lysine). The CS conjugates were complexed with recombinant plasmid DNA carrying a reporter gene. When the DNA complex was used to transfect primary hepatocytes, a very low level of expression of the reporter gene was observed. The level of expression was greatly enhanced when the cells were cotransfected with adenovirus, which presumably releases the internalized DNA from endosomal entrapment. The CS-mediated gene transfer into the cells required region II+, an evolutionarily conserved amino acid sequence conferring the binding of CS protein to its receptor. CS protein also efficiently mediated gene transfer into a number of cell lines, i.e. HepG2, HeLa, NIH3T3, and K562, but not HL-60, which contains low levels of receptor. Thus, the CS conjugate can be used to deliver DNA into many different cultured cells. Most importantly, the CS conjugate has a potential to be further developed into a liver-specific gene delivery vehicle in vivo.
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PMID:Malarial circumsporozoite protein is a novel gene delivery vehicle to primary hepatocyte cultures and cultured cells. 753 54

During its 48-hour cycle inside the red blood cell, the human malaria parasite, Plasmodium falciparum, increases its volume 25-fold and divides asexually. This rapid growth demands large amounts of nutrients, a problem exacerbated by the lower metabolic rate and relative ionic impermeability of the host red blood cell. Direct passage of small nutrients across the two membranes that separate the parasite from the erythrocyte cytosol may be important for parasite development and has been demonstrated for radiolabelled glucose, amino acids, and purine nucleosides. Flux studies on plasmodia are limited, however, to suspensions of erythrocyte-free parasites and so cannot be used to examine the individual transport properties of the two membranes involved. Here we use the cell-attached patch clamp method to overcome this limitation. After removing the intervening red blood cell membrane and forming gigaohm seals on the small (3-5 microns) parasite, we studied transport across the parasitophorous vacuole membrane (PVM), the outer of the two membranes that separate the parasite from the erythrocyte cytosol. A 140-pS channel which is permeable to both cations and anions was identified on the PVM. This channel is present at high density, is open more than 98 per cent of the time at the resting potential of the PVM, and is permeable to lysine and glucuronate. The channel can readily transport amino acids and monosaccharides across the PVM and may be essential for fulfilling the parasite's metabolic demands.
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PMID:A nutrient-permeable channel on the intraerythrocytic malaria parasite. 768 37

Southeast Asian ovalocytosis (SAO) is an asymptomatic trait characterized by rigid, poorly deformable red cells that resist invasion by several strains of malaria parasites. The underlying molecular genetic defect involves simple heterozygous state for a mutant band 3 protein, which contains a deletion of amino acids 400 through 408, linked with a Lys 56-to-Glu substitution (band 3-Memphis polymorphism). To elucidate the contribution of the mutant SAO band 3 protein to increased SAO red blood cell (RBC) rigidity, we examined the participation of the mutant SAO band 3 protein in increased band 3 attachment to the skeleton and band 3 oligomerization. We found first that SAO RBC skeletons retained more band 3 than normal cells and that this increased retention preferentially involved the mutant SAO band 3 protein. Second, SAO RBCs contained a higher percentage of band 3 oligomer-ankyrin complexes than normal cells, and these oligomers were preferentially enriched by the mutant SAO protein. At the ultrastructural level, the increased oligomer formation of SAO RBCs was reflected by stacking of band 3-containing intramembrane particles (IMP) into longitudinal strands. The IMP stacking was not reversed by treating SAO RBCs in alkaline pH (pH 11), which is known to weaken ankyrin-band 3 interactions, or by removing the cytoplasmic domain of band 3 from SAO membranes with trypsin. Finally, we found that band 3 protein in intact SAO RBCs exhibited a markedly decreased rotational mobility, presumably reflecting the increased oligomerization and the membrane skeletal association of the SAO band 3 protein. We propose that the mutant SAO band 3 has an increased propensity to form oligomers, which appear as longitudinal strands of IMP and exhibit increased association with membrane skeleton. This band 3 oligomerization underlies the increase in membrane rigidity by precluding membrane skeletal extension, which is necessary for membrane deformation.
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PMID:Molecular basis of altered red blood cell membrane properties in Southeast Asian ovalocytosis: role of the mutant band 3 protein in band 3 oligomerization and retention by the membrane skeleton. 779 44

Aldolase of the human malaria parasite Plasmodium falciparum (PfAldo) may be a potential target for the development of novel antimalarial drugs. Using in vitro mutagenesis we analyzed the function of the carboxy-terminus of the recombinant enzyme. Deletion of the carboxy-terminus of PfAldo confirmed its critical role in catalysis; exchange of conserved residues minimally affected enzyme activity. We exchanged a pair of parasite specific lysine residues with corresponding amino acids of the host. These mutant enzymes exhibited an increased catalytic activity and reduced binding to erythrocyte band 3 protein. Homologous peptides of human band 3 protein and P. falciparum alpha-tubulin were competitive inhibitors of PfAldo. Selective inhibition of PfAldo by the alpha-tubulin peptide depends on the presence of tandem lysine residues and the fine structure of the inhibitor peptide. Our data support the concept of a matrix organisation of glycolytic enzymes in Plasmodium falciparum.
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PMID:Selective inhibition of Plasmodium falciparum aldolase by a tubulin derived peptide and identification of the binding site. 845 25

During development in the mosquito midgut, malarial parasites must traverse a chitin-containing peritrophic matrix (PM) that forms around the food bolus. Previously Huber et al. [Huber, M., Cabib, E. & Miller, L. H. (1991) Proc. Natl. Acad. Sci. USA 88, 2807-2810] reported that the parasite secretes a protein with chitinase activity, and they suggested that parasite chitinase (EC 3.2.1.14) plays an important role in the parasite's egress from the blood meal. We found that allosamidin, a specific inhibitor of chitinase, completely blocked oocyst development in vivo and thus blocked malaria parasite transmission. Addition of exogenous chitinase to the blood meal prevented the PM from forming and reversed the transmission-blocking activity of allosamidin. Using exogenous chitinase, we also found that the PM does not limit the number of parasites that develop into oocysts, suggesting that the parasite produces sufficient quantities of chitinase to penetrate this potential barrier. In addition, we found that treatment of parasite chitinase with a diisopropyl fluorophosphate-sensitive trypsinlike protease from the mosquito midgut or endoproteinase Lys-C increased its enzymatic activity. These results suggest that malaria parasite has evolved an intricate mechanism to adapt to the PM and the protease-rich environment of the mosquito midgut.
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PMID:Transmission-blocking activity of a chitinase inhibitor and activation of malarial parasite chitinase by mosquito protease. 848 42

ELISA is widely used as a means to detect antibodies, but the potential of ELISA plates as an immunosorbent for the purification of specific antibodies does not seem to have been evaluated. In this study, ELISA plates coated with peptides representing short sequences of various antigens from Plasmodium falciparum, the etiologic agent of human malaria, have been successfully used as a means to purify small amounts of the corresponding antibodies. ELISA plates, identical to those used for antibody detection, also permitted the evaluation of various elution conditions for each pairing of peptide and serum; we tested four eluting buffers (0.2 M glycine, pH 2.5; 0.2 M lysine, pH 11.5; 3.0 M MgCl2, 0.075 M Hepes, 25% ethylene glycol, pH 7.1-7.2 and 4 M NH4SCN in 0.1 M NaH2PO4, pH 6.0) with four pairs of peptides and sera. The ELISA plates could also be used to estimate the affinity of the eluted antibodies by the technique of Pullen et al. (1986). The eluted antibodies were compared to those obtained by immunopurification on recombinant proteins adsorbed on nitrocellulose filters. In contrast to the latter, they were not contaminated by antibodies directed against the carrier moiety of the recombinant protein. When used in immunofluorescence assays with various stages of the parasite the antibodies immunopurified on peptides bound to ELISA plates were able to react with the native antigens in the parasite.
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PMID:Fast immunopurification of small amounts of specific antibodies on peptides bound to ELISA plates. 850 53

We have employed a 26-amino-acid synthetic peptide based on Plasmodium falciparum liver stage antigen-3 to evaluate improvements in immunogenicity mediated by the inclusion of a simple lipid-conjugated amino acid during peptide synthesis. Comparative immunization by the peptide in Freund's adjuvant or by the lipopeptide in saline shows that the addition of a palmitoyl chain can dramatically increase T helper (Th) cell responses in a wide range of major histocompatibility complex (MHC) class II haplotypes, to the extent that responses were induced in mice otherwise unable to respond to the non-modified peptide injected with Freund's adjuvant, and that the increased immunogenicity of the lipopeptide led to high and longer lasting antibody production (studied up to 8 months). B and T cell responses induced by the lipopeptide were reactive with native parasite protein epitopes, and a lipopeptide longer than ten amino acids was endogenously processed to associate with MHC class I and elicit cytotoxic T lymphocyte (CTL) responses. Finally, the lipopeptide was safe and highly immunogenic in chimpanzees, whose immune system is very similar to that of humans. Our results suggest that relatively large synthetic peptides, carefully chosen from pertinent areas of proteins and incorporating a simple palmitoyl-lysine, can induce not only CTL, but also strong Th and antibody responses in genetically diverse populations. Lipopeptides engineered in this way are simple to produce and purify under GMP conditions, they are well tolerated by apes, and with the enhanced immunogenicity without the need for adjuvant that we report here, they offer a quick and relatively low-cost route to provide material for human malaria vaccination trials.
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PMID:Lipopeptide immunization without adjuvant induces potent and long-lasting B, T helper, and cytotoxic T lymphocyte responses against a malaria liver stage antigen in mice and chimpanzees. 917 17

Bovine piroplasmosis caused by Theileria sergenti is a major cause of economical loss in grazing cattle in Japan. We found that parasite stocks and isolates consist of genetically and antigenically mixed population. To differentiate parasite populations bearing 2 allelic forms of p32, an immunodominant piroplasm surface protein, 2 sets of oligonucleotide primers were designed to amplify either of the 2 alleles by polymerase chain reaction (PCR). By using this allele-specific PCR, we found that the majority of T. sergenti-infected calves in Japan harbored mixed parasite populations with C and I type parasites. Amino acid sequence of p32 contains Lys-Glu-Lys (KEK) motif which is one of tripeptide necessary for malaria parasite to invade erythrocytes. We produced 2 vaccine candidates, recombinant baculovirus p32 and synthetic peptide containing KEK motif. Immunization of either recombinant p32 or synthetic peptide containing a KEK sequence with adjuvant resulted in low parasitemia and reduced the clinical symptoms compared to control calves. Interestingly, parasites with a p32 allelic form corresponding to one used as the immunogen were suppressed. Therefore, a cocktail vaccine containing KEK peptides derived from C and I type parasites is desired for control Theileria parasite infection in Japan.
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PMID:Vaccine development against Theileria parasite. 965 67


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