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)

In vitro studies have shown that exogenously supplied amino acids are transferred into the malaria-infected cell, where they are incorporated into proteins. Most amino acids appear to enter the cell by facilitated or simple diffusion; however, the high distribution ratios seen in Plasmodium knowlesi-infected cells are difficult to explain on this basis. The changes (leakiness) observed in amino acid transport in P. lophurae infected cells are probably the result of ATP depletion in the host cell as well as the elaboration of plasmodial substances. Depletion of isoleucine, methionine, and cysteine from the medium strikingly depresses the in vitro growth of P. knowlesi. The degree of amino acid incorporation into the malaria-infected cell is not correlated with the amount of a particular amino acid in the host cell haemoglobin, the decline of that amino acid in the plasma of infected animals, or the ratio of free amino acids of the erythrocyte to those of the plasma. In erythrocyte-"free" P. lophurae, carrier-mediated transport is apparently limited to a small number of amino acids; all others seem to enter by simple diffusion.Malaria-infected erythrocytes transport exogenously supplied purines at substantially higher rates than uninfected red cells. The preferred purines are adenosine, hypoxanthine, and inosine. The only pyrimidine incorporated is orotic acid. Thymidine, cytidine, and uridine do not readily enter the red cell, and incorporation does not take place because the parasites lack the appropriate enzyme for conversion to nucleotides. Erythrocyte-"free" P. berghei and P. lophurae take up purines and orotic acid. It has been suggested that in vivo the preferred purines are hypoxanthine and inosine, and that the transport locus for erythrocytes is specific for 6-oxopurines. Similar results of purine incorporation are reported for the insect stages of P. cynomolgi and P. berghei, although transport studies have not been carried out.
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PMID:Transport of amino acids and nucleic acid precursors in malarial parasites. 33 80

Malaria-infected red cells and free parasites have limited capabilities for the biosynthesis of amino acids. Therefore, the principal amino acid sources for parasite protein synthesis are the plasma free amino acids and host cell haemoglobin. Infected cells and plasmodia incorporate exogenously supplied amino acids into protein. However, the hypothesis that amino acid utilization (from an external source) is related to availability of that amino acid in haemoglobin is without universal support: it is true for isoleucine and for Plasmodium knowlesi and P. falciparum, but not for methionine, cysteine, and other amino acids, and it does not apply to P. lophurae. More by default than by direct evidence, haemoglobin is believed to be the main amino acid reservoir available to the intraerythrocytic plasmodium. Haemoglobin, ingested via the cytostome, is held in food vacuoles where auto-oxidation takes place. As a consequence, haem is released and accumulates in the vacuole as particulate haemozoin (= malaria pigment). Current evidence favours the view that haemozoin is mainly haematin. Acid and alkaline proteases (identified in crude extracts from mammalian and avian malarias) are presumably secreted directly into the food vacuole. They then digest the denatured globin and the resulting amino acids are incorporated into parasite protein. Cell-free protein synthesizing systems have been developed using P. knowlesi and P. lophurae ribosomes. In the main these systems are typically eukaryotic.Studies of amino acid metabolism are exceedingly limited. Arginine, lysine, methionine, and proline are incorporated into protein, whereas glutamic acid is metabolized via an NADP-specific glutamic dehydrogenase. Glutamate oxidation generates NADPH and auxiliary energy (in the form of alpha-ketoglutarate). The role of red cell glutathione in the economy of the parasite remains obscure. Important goals for future research should be: quantitative assessment of the relative importance of amino acid sources for parasite protein synthesis; purification and characterization of plasmodial proteinases; and in vitro translation of parasite messenger RNA.
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PMID:Amino acid metabolism and protein synthesis in malarial parasites. 33 83

Determinations were made of free amino acids in hemolymph collected from adult female Anopheles stephensi mosquitoes. The hemolymph first was fractionated by extraction and precipitation procedures, after which qualitative determinations of free amino acids were made by high voltage thin layer electrophoresis, and thin layer chromatography. Subsequent quantitative determinations were made with an automatic amino acid analyzer. The concentration of total free amino acids in the hemolymph rose 60--70% after the mosquito took a blood meal, and remained relatively constant thereafter. When mosquitoes took a blood meal infected with the rodent malaria parasite Plasmodium berghei, the rise in total free amino acids was only 15--25%. The chief differences that occurred with individual free amino acids was that infected mosquitoes had greater increases in arginine, greater decreases in valine and histidine, and a total loss of detectable methionine.
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PMID:Hemolymph of Anopheles stephensi from uninfected and Plasmodium berghei-infected mosquitoes. 2. Free amino acids. 37 12

Three tryptic-peptide sequences of an 88-kDa pair of phosphoproteins of the malaria parasite Plasmodium falciparum were determined. They exhibit a striking similarity to corresponding sequences of the 89-kDa domain of human erythrocyte ankyrin. [35S]Methionine labeling of the two proteins demonstrated their parasitic origin. Using an appropriate oligonucleotide probe, Southern-blot analysis of genomic malaria DNA and Northern-blot analysis of malaria RNA suggest the existence of ankyrin-related sequences in the parasite genome and the presence of an ankyrin-related transcript of about 3.2 kb. Our studies provide further evidence of malaria-specific analogues of host-cell proteins, implying an unusual kind of parasite/host interaction.
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PMID:An 88-kDa protein of Plasmodium falciparum is related to the band-3-binding domain of human erythrocyte ankyrin. 138 21

High-performance liquid chromatography (HPLC) is used to detect testosterone (T)-sensitive peptides in spleen cells isolated from female C57BL/10 mice immunosuppressed against Plasmodium chabaudi malaria by T treatment. Two peaks with retention times of about 25 min and 34 min, respectively, were identified to be diminished by about 52% and 47%, respectively, in spleen cells from T-treated mice compared to those from untreated mice. Amino acid sequencing revealed that the 24 min peak consisted of the dipeptide Met-Phe and the 34 min peak contained a degradative fragment of the alpha-chain of hemoglobin. Our data suggest that the immunosuppressive T treatment of B10 mice induces a perturbation of erythrophagocytosis in spleens.
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PMID:Testosterone-induced diminution of two peptides in spleen cells from testosterone-immunosuppressed B10 mice. 163 11

This study investigates the effects of the male sex hormone, testosterone (Te), on self-healing of Plasmodium chabaudi malaria as well as on protein expression and functional properties of total spleen cells and splenic T cells in females of the mouse strain C57BL/10. About 90% of the B10 females survive a challenge with 10(6) P. chabaudi-infected erythrocytes. The percentage of self-healers, however, is reduced to about 60%, 40%, and 0% after pretreatment with Te for 1, 2, and 3 weeks, respectively. The progressive loss of the capability of self-healing is correlated with an increasing expression of five proteins in splenic non-T cells as revealed by two-dimensional fluorography after metabolic labelling of total spleen cells and T cells with [35S]methionine. These have molecular masses (isoelectric points) of about 10 kDa (pI 5.7), 14 kDa (pI 6.3), 14 kDa (pI 6.4), 38 kDa (pI 6.5), and 46 kDa (pI 5.5), respectively. Splenic non-T cells from mice treated with Te for 3 weeks have gained an increased capability to stimulate the concanavalin A-induced proliferative response of T cells. Te induces the changes in functional properties and protein expression of splenic non-T cells only in vivo and not in vitro. This suggests that the changes in splenic non-T cells as well as the prevention of self-healing P. chabaudi malaria are not directly induced by Te but rather indirectly, i.e. by a Te metabolite and/or Te-induced factor(s).
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PMID:Testosterone-induced susceptibility to Plasmodium chabaudi malaria: variant protein expression in functionally changed splenic non-T cells. 182 Sep 73

Humans infected with Plasmodium falciparum frequently have elevated levels of proteins in their urine, but it is unclear if any of these proteins are parasite antigens or antimalarial antibodies. To resolve this question, urine samples from malaria patients and controls living in Thailand and Ghana were evaluated. Urine samples from 85% of the patients had elevated protein levels and contained proteins with Mrs ranging from less than 29,000 to greater than 224,000 as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Antisera were produced against urine from infected and control subjects. Antisera raised against infected, but not control, urine were positive by indirect immunofluorescence on P. falciparum parasites and immunoprecipitated approximately 12 unique bands from extracts of parasites metabolically labeled with 35S-methionine. These data suggest that a variety of P. falciparum antigens are released into urine during acute infection. It is also likely that anti-P. falciparum antibodies are present in the urine of malaria patients because samples from these patients, but not controls, were positive in indirect immunofluorescence assays and immunoprecipitated at least 19 P. falciparum antigens from extracts of metabolically labeled parasites. The detection of malarial antigens and antibodies in urine may lead to a new approach for the diagnosis of malaria.
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PMID:Detection of antigens and antibodies in the urine of humans with Plasmodium falciparum malaria. 186 42

The gene coding for the key glycolytic enzyme fructose-1,6-diphosphate aldolase of the human malaria parasite Plasmodium falciparum lacks a functional AUG initiation codon for translation. Protein sequences of natural or in vitro translated aldolase include the candidate start methionine residue at internal positions. No additional AUG start codon is found in genomic DNA, cDNA or mRNA sequences. Instead, a UAG chain termination codon is recognized as the start signal of protein synthesis in vivo and in vitro.
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PMID:Initiation of translation at a UAG stop codon in the aldolase gene of Plasmodium falciparum. 218 34

The filarial-specific humoral immune response of adult residents of two areas of Papua New Guinea, differing in transmission of Wuchereria bancrofti infection was compared. The majority of residents of the village of Bonahoi, in an area where transmission of filariasis had been interrupted by a 20-year insecticide spray program to control malaria, showed no parasitologic signs of active W. bancrofti infection and were negative for both circulating phosphorylcholine Ag and peripheral blood microfilariae. In contrast, adult residents of the village of Nanaha were in an area exposed to infection, and were phosphorylcholine-Ag- and microfilariae-positive. The antibody response of these two groups to both adult worm excretory/secretory (ES) Ag and somatic antigen extract was examined to determine which components of the filarial-specific immune response were dependent on active infection. Identification of these immune responses may point to immunologic methods to evaluate control programs for lymphatic filariasis. Adults from Bonahoi were found to have significant immune responses to [35S] methionine-labeled ES Ag by immunoprecipitation and to adult somatic antigen extracts by ELISA and by immunoblotting. This result is consistent with the fact that these individuals were previously exposed to and/or infected with W. bancrofti. Similarly, residents of the endemic village had detectable immune responses to these Ag irrespective of if they were microfilaremic. The most striking immunologic difference observed between the two groups was that residents of Bonahoi had a dramatically reduced filarial-specific IgG4 antibody response to both adult somatic Ag and adult ES Ag. These data suggest that longitudinal measurement of filarial-specific IgG4 levels may be a useful seroepidemiologic indicator of changes in W. bancrofti infection status.
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PMID:Filarial-specific IgG4 response correlates with active Wuchereria bancrofti infection. 225 18

Sera from 10 individuals who lived in a malaria endemic area, 10 patients with acute uncomplicated falciparum malaria and 10 patients with cerebral malaria and hyperimmune mouse serum were tested for their reactivities against Plasmodium falciparum sporozoite antigens by Western blot analysis using 125I-labeled staphylococcal protein A as the detecting reagent. These sera were shown by indirect immunofluorescence and/or circumsporozoite precipitation test to have antibodies reacting against the parasites. It was found that all serum antibodies from the three groups of individuals and the mouse serum reacted in a similar pattern with circumsporozoite (CS) proteins of P. falciparum. Ten sera from normal individuals were negative in all reactions. Monoclonal antibody (MAB) specific against CS proteins of the parasites showed that the proteins exhibited as four different molecular weight (MW) polypeptides, i.e., 67,000, 65,000, 60,000, and 58,000 daltons. These CS proteins of P. falciparum were found to be species and stage specific. Radioimmunoprecipitation using 35S-methionine-labeled parasites and sera of individuals from the various categories or MABs gave a similar result. Another protein antigen of P. falciparum sporozoites had a MW of 80,000 daltons. This antigen was not species specific, probably not membrane associated and was present in a minute quantity in the parasite's extract.
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PMID:Antibodies against circumsporozoite proteins of Plasmodium falciparum induced by natural infection. 242 15

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