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)

A 31-kDa glycoprotein antigen was purified by electrophoresing the crude extract of Parastrongylus cantonensis adult worms in a 12% SDS-polyacrylamide gel, identifying the 31-kDa component with prestained molecular weight standards, cutting the desired gel strip, and then isolating it by electroelution. Antigen fraction of 31 kDa was re-electrophoresed, transferred to a nitrocellulose membrane and found to be reactive with only the sera from patients with parastrongyliasis. No reactive band was observed with the sera from other related parasitic infections, eg, gnathostomiasis, toxocariasis, filariasis, paragonimiasis, cysticercosis and malaria, and the normal healthy control sera. This antigen fraction isolated showed 100% sensitivity and 100% specificity in the enzyme-linked immunosorbent assay (ELISA) for the detection of 31-kDa specific antibody in the sera from patients with parastrongyliasis. The P. cantonensis antigen of 31 kDa has been obtained by this means with a high degree of purity and applied successfully in conventional ELISA for the specific immunodiagnosis of human parastrongyliasis.
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PMID:Purification of a specific immunodiagnostic Parastrongylus cantonensis antigen by electroelution from SDS-polyacrylamide gels. 1155 81

The salivary proteins of Anopheles darlingi Root, the principal vector of malaria in the Amazon Region, Brazil, were analyzed. Comparison of the protein profiles between adult males and females revealed that most of the polypeptides are present in both sexes, but female-specific polypeptides also were observed. SDS-PAGE analysis of sugar-fed female mosquitoes with ages varying from 1 to 10 d after adult emergence indicated that the proteins start to be accumulated in the first day of life and are present throughout the period analyzed. Analysis of blood-fed mosquitoes showed no differences in salivary proteins when compared with sugar fed ones, suggesting that there is no specific protein induced by blood. The protein profiles of the salivary glands dissected from wild-caught female mosquitoes from different geographical regions of Brazil were compared and some differences were observed.
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PMID:Analysis of salivary gland proteins of the mosquito Anopheles darlingi (Diptera: Culicidae). 1158 55

The detection of antigen in the urine is increasingly being used for diagnosis of parasitic infections. A urinary antigen has recently been demonstrated in visceral leishmaniasis (VL), using a latex agglutination test. The results of our study show that the detected antigen is: heat-stable, precipitates with acetone and ethanol but not TCA, is sensitive to periodate and acid hydrolysis but not to pronase E, lipase, or neuraminidase. The antigen is a low molecular weight glycoconjugate that can be extracted by phenol-water, partitions into the aqueous phase when extracted with Triton X-114 or chloroform/methanol, and can be labelled by biotin hydrazide. Since this urinary antigen cannot be characterised by conventional SDS-PAGE and Western blotting, we used an affinity transfer blotting system in which antigens were captured onto nitro-cellulose paper previously coated with a specific antibody. Using this system a low molecular weight antigen (LMWA) spanning an area of the nitro-cellulose membrane corresponding to molecular weight of 5-20 kDa was detected in the urine of VL patients (from Nepal, Sudan, Brazil, Yemen and Spain) and of experimentally infected animals. No LMWA was detected in the urine of patients with malaria, schistosomiasis, or other nonparasitic diseases including typhoid and brucellosis. Immunoprecipitation, using antibody-coated latex, followed by immunoblotting showed that the LMWA is the target antigen in the previously described latex agglutination test ('KATEX'). The antigen is detectable in both the promastigote and amastigote stages of the parasite. Monoclonal antibodies (mAbs) against Leishmania glycoconjugates strongly react with this molecule. These results suggest that the detected antigen is highly specific and diagnostic for VL.
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PMID:Antigenuria in visceral leishmaniasis: detection and partial characterisation of a carbohydrate antigen. 1203 73

Plasmodium vivax and Plasmodium falciparum are the two prevalent human malaria species. A Colombian P. vivax wild strain has been adapted in Aotus nancymaae monkeys for use in further biological and immunological studies. We present data validating a real-time PCR assay quantifying P. vivax parasitemia, using the small subunit ribosomal RNA genes as an amplification target. P. vivax species-specific primers were designed on the 18S ribosomal gene V8 region, for amplifying both asexual and sporozoite ssrRNA genes. The assay detects amplification products bound to fluorescent SYBR-Green I dye using Perkin-Elmer GeneAmp-5700-SDS. Linear range standard curves from 6 DNA concentration logs (+0.99 correlation coefficients) were obtained. Standard curves were constructed using a plasmid containing target gene for real-time PCR amplification. This P. vivax specific assay is very sensitive, having a three parasite detection limit, and is reproducible and accurate. It involves a "closed-tube" PCR, avoids time-consuming post-PCR manipulation, and decreases potential PCR contamination.
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PMID:Plasmodium vivax: parasitemia determination by real-time quantitative PCR in Aotus monkeys. 1205 3

Plasmodium falciparum chimeric protein 2 (PfCP-2), fused by erythrocytic stage antigens, AMA-1(III) and MSP1-19, is a potential vaccine candidate against malaria. However, the two-band pattern of this protein product in SDS-PAGE has some negative influence for the application of it for clinical tests. N-terminal sequence analysis of the product showed that the doublet had different N-terminus, with 9 amino acid deletion in the band with low molecular weight. Therefore, the gene was modified to generate a new construct, named PfCP-2.9, which was lack of these 9 residues at its N-terminus. Expression of PfCP-2.9 produced only one band. Moreover, the new construct was as same as the original product in the level of expression, conformation dependence on the disulfide bond, immunogenicity and inhibitory effect on the parasite growth in vitro.
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PMID:[Influence of deleting 9 amino acid residues at N-terminus on immunogenicity of a Plasmodium falciparum chimeric protein]. 1267 88

The recombinant histidine-rich protein II (HRPII) from Plasmodium falciparum was shown to bind actin and phosphatidylinositol 4,5-bisphosphate (PIP(2)) in vitro in a pH-dependent manner, very similar to hisactophilin, an actin-binding protein from ameba. Binding of HRPII to actin and PIP(2) occurred at pH 6.0 and 6.5, but not above pH 7.0. Circular dichroism (CD) spectroscopy confirmed that HRPII interacts with actin at pH below 7.0, as judged by the changes induced in the secondary structure of the HRPII/actin mixture. Further CD analysis demonstrated that HRPII adopts a predominantly alpha-helical conformation with anionic micelles of PIP(2) and SDS, but not with neutral micelles of phosphatidylcholine (PC), a feature that is common to many actin-binding proteins involved in cytoskeleton remodeling. Similarly to hisactophilin, a GFP-HRPII fusion protein shuttled from the cytoplasm to the nucleus of HeLa cells as the cellular pH was lowered from 8.0 to 6.0. HeLa cells transfected with the HRPII gene showed increased levels of histidine-rich proteins (HRPs) in the soluble cell fraction at pH 8.0. At pH 6.0, however, HRPs were detected mainly in the insoluble cell fraction. Interestingly, we found that HRPII binds to human erythrocyte membranes at pH 6.0 and 6.5 but not at pH above 7.0. Our results point to remarkable similarities between HRPII, hisactophilin, and actin-binding proteins. Possible roles of the HRPII during Plasmodium infection are discussed in the light of these findings.
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PMID:Plasmodium falciparum histidine-rich protein II binds to actin, phosphatidylinositol 4,5-bisphosphate and erythrocyte ghosts in a pH-dependent manner and undergoes coil-to-helix transitions in anionic micelles. 1274 82

Formation of hemozoin in the malaria parasite, due to its unique nature, is an attractive molecular target. Several laboratories have been trying to unravel the molecular mechanism of hemozoin biosynthesis within the parasite digestive vacuoles. Use of different assay protocols for in vitro beta-hematin (synthetic identical to hemozoin) formation by these laboratories has led to inconsistent and often contradictory findings. Much of the difficulty may be attributed to oligomeric heme aggregates, which may be indistinguishable in some detection approaches if adequate separation of beta-hemtin is not achieved. Therefore, there is an urgent need for a widely accepted protocol for in vitro beta-hematin formation. We describe here a spectrophotometric assay for in vitro beta-hematin formation. The assay has been validated with the Plasmodium falciparum lysate, the parasite lipid extracts, and some commercially available fatty acids, which are known to initiate/catalyze beta-hematin formation in vitro. The necessity for multiple wash steps for accurate quantification of de novo hemozoin/beta-hematin formation was verified experimentally. It was necessary to wash the pellet, which contains beta-hematin and heme aggregates, sequentially with Tris/SDS buffer and alkaline bicarbonate solution for complete removal of monomeric heme and heme aggregates and accurate quantification of beta-hematin formed during the assay. The pellets and side products in the supernatant were characterized by infrared spectroscopy. No beta-hematin formation occurred in the absence of a catalytic/initiating factor. Based on these findings, a filtration-based assay that uses 96-well microplates, and which has important application in in vitro screening and identification of novel inhibitors of hemozoin formation as potential blood schizontocidal antimalarials, has been developed.
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PMID:Spectrophotometric determination of de novo hemozoin/beta-hematin formation in an in vitro assay. 1471 88

Plasmodium falciparum rhoptry-associated proteins 1 (RAP1) and 2 (RAP2) are antigens presenting themselves as candidates for a subunit malaria vaccine. RAP2 protein, non-overlapping, consecutive peptides were synthesised and tested in red blood cell (RBC) binding assays to identify their receptor-ligand interaction in recognising RAP2 regions involved in the in vitro merozoite invasion process. Four high activity binding peptides (HABPs) were identified in the resulting 20 peptides. Peptides 26220 ((61)NHFSSADELIKYLEKTNINT(80)), 26225 ((161)IKKNPFLRVLNKASTTTHAT(180)) and 26229 ((241)RSVNNVISKNKTLGLRKRSS(260)) were located in the amino terminal and central part of the protein and HABP 26235 ((361)FLAEDFVELFDVTMDCYSRQ(380)) was located at the carboxy terminal. All these HABPs showed saturable binding and presented dissociation constants between 500 and 950 nM; the number of binding sites per RBC ranged from 48,000 to 160,000. High binding peptides' critical amino acids involved in RBC binding were determined by competition binding assays; their amino acids appear in bold in the sequences shown above. SDS-PAGE results showed that peptides 26220, 26225 and 26229 had at least two different sets of 62 and 42 kDa HABP receptors on RBCs and that peptide 26235 had at least two different sets of 77 and 62 kDa. HABPs inhibited in vitro merozoite invasion by between 54% and 94% at 200 microM, suggesting that these RAP2 peptides are involved in the in vitro P. falciparum invasion process.
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PMID:Plasmodium falciparum: red blood cell binding studies using peptides derived from rhoptry-associated protein 2 (RAP2). 1498 94

Plasmodium falciparum, the causative agent of the most lethal form of human malaria, relies on de novo pyrimidine biosynthesis. A gene encoding orotate phosphoribosyltransferase (OPRT), the fifth enzyme of the de novo pathway catalyzing formation of orotidine 5'-monophosphate (OMP) and pyrophosphate (PP(i)) from 5-phosphoribosyl-1-pyrophosphate (PRPP) and orotate, was identified from P. falciparum (pfOPRT). The deduced amino acid sequence for pfOPRT was compared with OPRTs from other organisms and found to be most similar to that of Escherichia coli. The catalytic residues and consensus sequences for substrate binding in the enzyme were conserved among other organisms. The pfOPRT was exceptional in that it contained a unique insertion of 20 amino acids and an amino-terminal extension of 66 amino acids, making the longest amino acid sequence (281 amino acids with a predicted molecular mass of 33kDa). The cDNA of the pfOPRT gene was cloned, sequenced and functionally expressed in soluble form. The recombinant pfOPRT was purified from the E. coli lysate by two steps, nickel metal-affinity and gel-filtration chromatography. From 1l E. coli culture, 1.2-1.5mg of pure pfOPRT was obtained. SDS-PAGE revealed that the pfOPRT had a molecular mass of 33kDa and analytical gel-filtration chromatography showed that the enzyme activity eluted at approximately 67kDa. Using dimethyl suberimidate to cross-link neighboring subunits of the pfOPRT, it was confirmed that the native enzyme exists in a dimeric form. The steady state kinetics of initial velocity and product inhibition studies indicate that the enzyme pfOPRT follows a random sequential kinetic mechanism. Compounds aimed at the pfOPRT nexus may act against the parasite through at least two mechanisms: by directly inhibiting the enzyme activity, or be processed to an inhibitor of thymidylate synthase. This study provides a working system with which to investigate new antimalarial agents targeted against P. falciparum OPRT.
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PMID:Human malaria parasite orotate phosphoribosyltransferase: functional expression, characterization of kinetic reaction mechanism and inhibition profile. 1500 44

Although it is well established that patients suffering from malaria experience skeletal muscle problems (contracture, aches, fatigue, weakness), detailed studies have not been performed to investigate changes in the contractile function and biochemical properties of intact and skinned skeletal muscles of mammals infected with malaria. To this end, we investigated such features in the extensor digitorium longus (EDL, fast-twitch, glyocolytic) and in the soleus (SOL, slow-twitch, oxidative) muscles from mice infected with Plasmodium berghei. We first studied maximal tetanic force (T(max)) produced by intact control and malaria-infected muscles before, during and after fatigue. Triton-skinned muscle fibres were isolated from these muscles and used to determine isometric contractile features as well as a basic biochemical profile as analysed by silver-enhanced SDS-PAGE. We found that the T(max) of intact muscles and the maximal Ca2+-activated force (F(max)) of Triton-skinned muscle fibres were reduced by approximately 50% in malarial muscles. In addition, the contractile proteins of Triton-skinned muscle fibres from malarial muscles were significantly less sensitive to Ca2+. Biochemical analysis revealed that there was a significant loss of essential contractile proteins (e.g. troponins and myosin) in Triton-skinned muscle fibres from malarial muscles as compared to controls. The biochemical alterations (i.e., reduction of essential contractile proteins) seem to explain well the functional modifications resolved in both intact muscles and Triton-skinned muscle fibres and may provide a suitable paradigm for the aetiology of muscle symptoms associated with malaria.
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PMID:Functional and biochemical modifications in skeletal muscles from malarial mice. 1572 39

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