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

The incidence of human malaria has increased during the past 20 years; 270 million people are now estimated to be infected with the parasite. An important contribution to this increase has been the appearance of malaria organisms resistant to quinoline-containing antimalarials such as chloroquine and quinine. These drugs accumulate in the acid food vacuoles of the intraerythrocytic-stage malaria parasite, although the mechanism of their specific toxicity in this organelle is uncertain. The primary function of the food vacuole is the proteolysis of ingested red cell haemoglobin to provide the growing parasite with essential amino acids. Haemoglobin breakdown in the food vacuole releases haem, which if soluble can damage biological membranes and inhibit a variety of enzymes. Rather than degrading or excreting the haem, the parasite has evolved a novel pathway for its detoxification by incorporating it into an insoluble crystalline material called haemozoin or malaria pigment. These crystals form in the food vacuole of the parasite concomitant with haemoglobin degradation, where they remain until the infected red cell bursts. The structure of haemozoin comprises a polymer of haems linked between the central ferric ion of one haem and a carboxylate side-group oxygen of another. This structure does not form spontaneously from either free haem or haemoglobin under physiological conditions, and the biochemistry of its formation is unclear. Here we report the identification and characterization of a haem polymerase enzyme activity from extracts of Plasmodium falciparum trophozoites, and show that this enzyme is inhibited by quinoline-containing drugs such as chloroquine and quinine. This provides a possible explanation for the highly stage-specific antimalarial properties of these drugs.
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PMID:Inhibition by chloroquine of a novel haem polymerase enzyme activity in malaria trophozoites. 172 45

Malaria parasites, unable to synthesize purine de novo, use host-derived hypoxanthine preferentially as purine source. In a previous study (1990. J. Biol. Chem. 265:6562-6568), we noted that xanthine oxidase rapidly and completely depleted hypoxanthine in human erythrocytes, not by crossing the erythrocyte membrane, but rather by creating a concentration gradient which facilitated hypoxanthine efflux. We therefore investigated the ability of xanthine oxidase to inhibit growth of FCR-3, a chloroquine-resistant strain of Plasmodium falciparum in human erythrocytes in vitro. Parasites were cultured in human group O+ erythrocytes in medium supplemented, as required, with xanthine oxidase or chloroquine. Parasite viability was assessed by uptake of radiolabeled glycine and adenosine triphosphate-derived purine into protein and nucleic acid, respectively, by nucleic acid accumulation, by L-lactate production, and by microscopic appearance. On average, a 90% inhibition of growth was observed after 72 h of incubation in 20 mU/ml xanthine oxidase. Inhibition was notably greater than that exerted by 10(-7) M chloroquine (less than 10%) over a comparable period. The IC50 for xanthine oxidase was estimated at 0.2 mU/ml, compared to 1.5 x 10(-7) M for chloroquine. Inhibition was completely reversed by excess hypoxanthine, but was unaffected by oxygen radical scavengers, including superoxide dismutase and catalase. The data confirms that a supply of host-derived hypoxanthine is critical for nucleic acid synthesis in P. falciparum, and that depletion of erythrocyte hypoxanthine pools of chloroquine-resistant malaria infection in humans. of chloroquine-resistant malaria infection in humans.
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PMID:Xanthine oxidase inhibits growth of Plasmodium falciparum in human erythrocytes in vitro. 175 46

We have attempted to determine the cellular mechanism by which alpha-thalassaemia may protect against Plasmodium falciparum malaria. Invasion and development of P. falciparum in the microcytic red cells of two-gene deletion forms of alpha-thalassaemia when measured morphologically or by [3H]hypoxanthine incorporation were normal compared to controls. Normal invasion rates were also observed following schizogony in thalassaemic red cells. Neither the addition of the oxidant menadione, 30% oxygen, nor modified medium, produced differential damage to parasites within thalassaemic cells. Furthermore, there were no significant differences in the binding of P. falciparum-parasitized alpha-thalassaemic and normal cells to C32 melanoma cells in vitro. However, when neoantigen expression on the surface of infected thalassaemic cells was estimated using a quantitative radiometric antiglobulin assay, clear differences were observed. It was found that alpha-thalassaemic cells bound higher levels of antibody from serum obtained from individuals living in a malaria endemic area than control normal red cells. The binding ratio for thalassaemic compared with controls was 1.69 on a cell-for-cell basis, and 1.97 when related to surface area. The binding of antibody from immune serum increased exponentially during parasite maturation. We also found increased binding of naturally occurring antibody present in non-immune serum to parasitized thalassaemic red cells which also increased during parasite maturation. We conclude that the protection afforded by thalassaemia against malaria may not reside in the ability of parasites to enter, grow or cytoadhere to endothelium in such cells, but may be related to immune recognition and subsequent clearance of parasitized red cells.
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PMID:Protection by alpha-thalassaemia against Plasmodium falciparum malaria: modified surface antigen expression rather than impaired growth or cytoadherence. 175 9

The effects of antimalarial treatment on the blood oxygen-transporting properties and on the tissue hypoxia were investigated in severe murine malaria, using mice infected with Plasmodium berghei (NK65). Five week old male ddY mice were inoculated intraperitoneally with 1 X 10(7) of P. berghei-infected red blood cells and treated with Fansidar (20 mg/kg body weight sulfadoxine and 1 mg/kg body weight pyrimethamine orally) on day 5 after inoculation. Parasitemia in these mice decreased rapidly on day 1 after treatment. Blood hemoglobin concentration, however, decreased on days 1 and 2 of treatment, then began to increase. The actual oxygen equilibrium curve (OEC) in vivo (actual pH; actual Pco2; 36.5 degrees C) was calculated from the measured OEC and the results of blood gas analysis. Looking from arterial and venous Po2 of each group, blood oxygen-transporting properties decreased markedly on day 2 of treatment. This decrease resulted mainly from the decrease of hemoglobin concentration and also partly from the raised hemoglobin affinity for oxygen. Adenosine triphosphate concentration in liver tissues, however, began to increase on day 1 of treatment. Adenylate energy charge of liver tissues also recovered on day 1. Blood glucose concentration began to increase and blood lactate concentration began to decrease simultaneously on day 1 of treatment. Glucose concentration in liver tissues, in contrast, decreased on days 1 and 2 of inoculation. Lactate concentration in liver tissue decreased earlier on day 1. These data indicate that tissue hypoxia was removed on day 1 following antimalarial treatment although blood oxygen-transporting properties decreased on days 1 and 2 after treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Trends of tissue hypoxia following chemotherapy of acute malaria in mice]. 178

Membrane lipid peroxidation by reactive oxygen species leading to increased capillary permeability is considered an important event in the pathogenesis of severe malaria. A significant decrease in plasma albumin and increases in cerebrospinal fluid (CSF) protein and malondialdehyde (MDA) were observed in 73 patients with cerebral malaria, compared to values in 23 control patients. The greatest effect was noticed in the most severely ill patients. The ratio of CSF protein to plasma albumin was increased in the patients compared to the controls, and in fatal cases of cerebral malaria compared to non-fatal cases. Brain necropsies showed oedema, fibrin deposits and mononuclear cell infiltration. It is proposed that cerebral oedema due to enhanced permeability of vascular endothelium induced by increased lipid peroxidation plays a crucial role in the causation of cerebral malaria.
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PMID:Increased cerebrospinal fluid protein and lipid peroxidation products in patients with cerebral malaria. 180 39

This study was performed to observe the erythrocytic schizogony of P. vivax under several culture conditions in vitro. Five experimental groups included: 1) static cultivation in candle jar; 2) static cultivation in candle jar with candle relightened; 3) static cultivation under low oxygen tension (5-10%); 4) deep suspension cultivation in test tubes with cotton plunger; 5) deep suspension cultivation in closed test tubes with screw cap. Two different isolates of P. vivax collected from Jingshan County and Zaoyang County were used. Cultivation was initiated with two methods, i.e. direct inoculation from fresh patient blood with malaria parasites and retrieval cultivation from freezing malaria parasite blood. The suspension cultivation in test tube with cotton plunger could not support the schizogony of P. vivax, while other groups could at least complete two schizogony cycles. The best result was obtained with static cultivation under low oxygen tension, the growth of parasites appeared to be more normal. The results showed that cultivation of P. vivax under a low oxygen concentration of 5-10% is preferred and the selection of isolates of P. vivax might be important in in vitro cultivation.
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PMID:[Erythrocytic schizogony of Plasmodium vivax under various conditions of in vitro cultivation]. 180 48

Dihydroorotate dehydrogenase (DHODase) has been purified 400-fold from the rodent malaria parasite Plasmodium berghei to apparent homogeneity by Triton X-100 solubilization followed by anion-exchange, Cibacron Blue F3GA-agarose affinity, and gel filtration chromatography. The purified enzyme has a molecular mass of 52 +/- 2 kDa on sodium dodecyl sulfate-polyacrylamide gel electrophoresis and of 55 +/- 6 kDa by gel filtration chromatography, and it has a pI of 8.2. It is active in monomeric form, contains 2.022 mol of iron and 1.602 acid-labile sulfurs per mole of enzyme, and does not contain a flavin cofactor. The purified DHODase exhibits optimal activity at pH 8.0 in the presence of the ubiquinone coenzyme CoQ6, CoQ7, CoQ9, or CoQ10. The Km values for L-DHO and CoQ6 are 7.9 +/- 2.5 microM and 21.6 +/- 5.5 microM, respectively. The kcat values for both substrates are 11.44 min-1 and 11.70 min-1, respectively. The reaction product orotate and an orotate analogue, 5-fluoroorotate, are competitive inhibitors of the enzyme-catalyzed reaction with Ki values of 30.5 microM and 34.9 microM, respectively. The requirement of the long-chain ubiquinones for activity supports the hypothesis of the linkage of pyrimidine biosynthesis to the electron transport system and oxygen utilization in malaria by DHODase via ubiquinones [Gutteridge, W. E., Dave, D., & Richards, W. H. G. (1979) Biochim. Biophys. Acta 582, 390-401].
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PMID:Purification and characterization of dihydroorotate dehydrogenase from the rodent malaria parasite Plasmodium berghei. 184 78

Micromolar concentrations of diethyldithiocarbamic acid (DDC) kill fungi, bacteria and malaria. DDC forms chelates with copper and the microbicidal effectiveness of this drug is enhanced greatly by small amounts of copper. DDC, in the presence of at least 1 molar equivalent of copper, also causes lysis of human erythrocytes. To explore the cytocidal actions of DDC and copper, we have used human erythrocytes and Escherichia coli as models. We found that: (1) the combination of DDC and copper also lysed E. coli spheroplasts, suggesting a possible common mechanism of hemolytic and microbicidal action; (2) higher ratios of drug: metal (greater than 4:1) diminished hemolytic and, as observed earlier, microbicidal effects; (3) cobalt, known to suppress the microbicidal effects of DDC:Cu, also prevented red cell lysis; (4) despite the necessary involvement of copper in DDC-mediated hemolysis, there was no evidence of oxidative damage to erythrocytes, and both lysis of erythrocytes and killing of E. coli were undiminished in the absence of oxygen; (5) the DDC:Cu chelate preferentially located in organic solvents and in membranes of erythrocytes. The chelate was quite soluble in chloroform but much less so in a C-16 hydrocarbon (hexadecane) which resembled erythrocyte membrane lipid. In hexadecane and at greater than 10(-4) M DDC and 5 x 10(-5) copper, an amphipathic drug:metal complex accumulated at the organic:aqueous interface; and (6) this amphipathic complex may permeabilize the lipid bilayer, causing leakage of ions and cell water and eventuating in colloid osmotic lysis. Red cells and E. coli exposed to the chelate showed early loss of intracellular rubidium (86Rb+). Furthermore, lysis of erythrocytes and E. coli spheroplasts was suppressed by the inclusion of either dextran or sucrose. Thus, it appears that DDC:Cu chelates are cytocidal by virtue of concentrating in the lipid bilayer and, perhaps, forming amphipathic complexes which disrupt membrane integrity. Drugs with similar behavior hold promise for therapy of malaria because metals capable of forming such complexes may accumulate within parasitized red cells.
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PMID:Hemolytic and microbicidal actions of diethyldithiocarbamic acid. 184 82

The intraerythrocytic malaria parasite uses hemoglobin as a major nutrient source. Digestion of hemoglobin releases heme, which the parasite converts into an insoluble microcrystalline material called hemozoin or malaria pigment. We have purified hemozoin from the human malaria organism Plasmodium falciparum and have used infrared spectroscopy, x-ray absorption spectroscopy, and chemical synthesis to determine its structure. The molecule consists of an unusual polymer of hemes linked between the central ferric ion of one heme and a carboxylate side-group oxygen of another. The hemes are sequestered via this linkage into an insoluble product, providing a unique way for the malaria parasite to avoid the toxicity associated with soluble heme.
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PMID:An iron-carboxylate bond links the heme units of malaria pigment. 198 33

Generation of reactive oxygen radicals by peripheral blood monocytes was measured by luminol-dependent chemiluminescence in 23 P. vivax- and 7 P. falciparum-infected patients. The chemiluminescence index (CLI) was not found to be significantly higher in P. vivax-infected cases than in healthy controls. But in patients with P. falciparum infection, the CLI was significantly higher compared to controls as well as to P. vivax-infected patients. In two severe and complicated P. falciparum-infected cases, CLI was found to be higher than in mild cases. As immunosuppression is more marked in falciparum malaria than in vivax cases, the role of oxygen radical generation in immunopathology and causation of immunosuppression in falciparum malaria needs further investigation.
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PMID:Generation of reactive oxygen species by blood monocytes in human Plasmodium falciparum and P. vivax infections. 201 34

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