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)

This study was performed to investigate oxygen transport properties in whole blood (WB) of malaria-infected rats as well as in infected erythrocytes (IE) and noninfected erythrocytes (NIE) separated by density centrifugation. One week after inoculation with Plasmodium berghei, mean parasitemia was 26.5% and high correlations were found between parasitemia and hemoglobin concentration ([Hb]; r = -.902), mean cellular Hb concentration (MCHC; r = -.712), MetHb (r = .923), and base excess (r = -.922). Compared with control animals (C), the oxygen affinity was lower in WB under standard (pH 7.40) and simulated "in vivo" (pH 7.00) conditions (difference in P50, 5.7 and 5.1 mm Hg, respectively; 2P < .01, 2P < .05). In IE Hb and 2,3-biphosphoglycerate (2,3-BPG) concentrations were decreased (MCHC: IE 14.6 +/- 1.0, NIE 33.1 +/- 1.7 g/100 mL; [2,3-BPG]: IE 2.0 +/- 0.6, NIE 7.6 +/- 1.8 mmol/L), whereas [MetHb] and [ATP] were increased ([MetHb]: IE 19.0 +/- 3.7, NIE 0.7% +/- 0.8%; [ATP]: IE 33.5 +/- 2.4, NIE 6.2 +/- 1.0 mumol/g Hb). At pH 7.40, half-saturation oxygen tension (P50) was reduced in IE (29.6 +/- 2.6, NIE 39.2 +/- 5.4 mm Hg, 2P < .001), which correlates with lower [2,3-BPG], increased MetHb content, and higher intrinsic Hb-O2 affinity. However, at pH 7.00, the oxygen affinity was lower in IE when compared with NIE, which was most likely due to high [ATP] in IE. The resulting Bohr coefficients (BC) calculated for CO2 and lactic acid were extremely high in IE and low in NIE (at 50% O2-saturation BCCO2: IE -1.04 +/- 0.06, NIE -0.26 +/- 0.10, 2P < .001; BCLac: IE -0.82 +/- 0.16, NIE -0.47 +/- 0.07, 2P < .001), which was caused by different [2,3-BPG] and [ATP] as well as probably by structural changes of the Hb molecule. The O2 capacity was 14.1 mL per 100 mL erythrocytes in IE compared with 44.4 mL/100 mL in NIE. On the basis of the calculated arterio-venous O2 difference under "in vivo" conditions, the infected red blood cell fraction transports 30% of the O2 amount delivered to the tissues by the noninfected cells (IE 8.0, NIE 26.9 mL/100 mL red blood cells). We conclude that the O2 transport in malaria infected blood is not only affected by the degree of anemia but also by the percentage of infected erythrocytes.
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PMID:Oxygen transport properties in malaria-infected rodents--a comparison between infected and noninfected erythrocytes. 820 95

Oxidative radicals are demonstrably produced in malaria-infected erythrocytes. In order to verify the biochemical origin of these radicals, erythrocyte lysate was brought to acid pH to mimic the environment of the parasite food vacuole into which host cell cytosol is transferred during parasite feeding. Oxyhemoglobin, but not deoxyhemoglobin, is rapidly converted to methemoglobin at rates which decline with increasing pH. The rate of conversion is further increased in the presence of the catalase inhibitor 3-amino-1,2,4-triazole (3-AT) and the extent of inhibition of the lysate catalase increases upon acidification, implying that H2O2 is thus produced by the spontaneous dismutation of superoxide radicals generated during methemoglobin formation. Intact Plasmodium falciparum trophozoite-infected human red blood cells (TRBC) were shown to produce H2O2 and OH radicals about twice as much as normal erythrocytes, as evidenced by the inhibition of endogenous catalase activity in the presence of 3-AT and the degradation of deoxyribose, respectively. Increased H2O2 levels and catalase activity were found in both host cell and parasite compartments. No increase in H2O2 production over that observed in uninfected erythrocytes could be detected at the ring stage when host cell digestion is absent. H2O2 and OH radicals production in TRBC was considerably reduced when digestion of host cell cytosol was inhibited either by antiproteases (which reduce the proteolysis of imported catalase) or by its alkalinization with NH4Cl (which reduce methemoglobin formation). These results suggest that reactive oxygen species are produced in the parasite's food vacuole during the digestion of host cell cytosol, and are able to egress from the parasite to the host cell compartment.
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PMID:Origin of reactive oxygen species in erythrocytes infected with Plasmodium falciparum. 826 27

Pulmonary involvement occurs in 3 to 10% of the cases of Plasmodium falciparum malaria and represents the most serious complication of this infection, with a lethality of about 70%. The understanding of its pathogenesis is still very fragmentary, however it is recognized that activation of the immune system by antigens released by the parasite plays an important role in the induction and worsening of lung damage. Capillary endothelial cells, which control the flux of fluids to the interstitial space, appear to be the most involved structure. These cells are activated by cytokines, produced by lymphocytes and macrophages during the immune response, and express receptors and molecules of adhesion, allowing for sequestration of parasitized erythrocytes and adherence of cells, which will produce locally inflammatory mediators. The inflammatory reaction and lesion of endothelial cells that ensue, together with the hemodynamic alterations induced by the capillary blockade due to the sequestration of parasitized erythrocytes and leukocytes, cause alterations of the vascular permeability and transfer of liquid to intertitial space and alveoles. Severe cases are clinically expressed by a picture of Adult Respiratory Distress Syndrome. The clinical manifestations of pulmonary involvement may start suddenly at any time during the course of malaria, even after disappearance of circulating parasites. The inducing factors are unknown. Hyperparasitemia, renal failure and pregnancy are predisposing factors. The prognosis will depend on how fast the diagnosis is established and convenient treatment initiated. If parasites are present they shall be treated with schizonticidal drugs, hemodynamic parameters continuously evaluated, preferably through a Swam-Ganz catheter. Appropriate oxygen supply and fluid balance have to be warranted. Other complications of malaria, frequently associated to the pulmonary involvement, need special attention and proper treatment. A better understanding of the pathogenesis of lung damage associated to malaria will certainly help to improve treatment and reduce morbidity and mortality.
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PMID:[Pulmonary involvement in malaria (review)]. 827 49

It is known that the calcium channel blocker (CCB), nifedipine, can inhibit phagocyte oxidative burst in Plasmodium berghei-infected mice. The extent of immunopathological changes as seen by the course of infection and membrane lipid peroxidation in nifedipine-treated mice was examined in comparison with untreated mice at different parasite loads. The glutathione antioxidant system was also studied in these animals to assess its capacity to neutralize reactive oxygen species (ROS) in infected erythrocytes. The survival period of nifedipine-treated, infected mice decreased significantly. It was observed that the accumulation of reduced glutathione was greater and the decrease in glutathione peroxidase activity was less marked in drug-treated animals, suggesting better protection of the parasites against oxidative injury. The accumulation of the lipid peroxidation product, malonyldialdehyde was significantly lower in nifedipine-treated animals at all parasitemia levels studied, indicating decreased ROS generation and parasite damage. These observations reveal the shortcomings of using CCB to reverse the chloroquine resistance in malaria as this would minimize oxidative damage of parasitized red cells and phagocyte-mediated parasite killing.
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PMID:Effect of nifedipine on oxidative damage of erythrocytes in Plasmodium berghei-infected mice. 840 62

Superoxide dismutase (SOD) was investigated in three species of rodent malaria (Plasmodium berghei, P. yoelii and P. vinckei). The isoelectric points (pI) of isozymes found in purified parasites were identical. SOD activities detected by isoelectrofocusing at pl 5.0, 5.6, and 6.4 were cyanide-sensitive and could be considered as having been adopted by the parasites from the host red blood cell. The three rodent malaria parasites also contained a cyanide-resistant, hydrogen peroxide-sensitive SOD activity not found in the host red blood cell. It is therefore concluded that the three rodent malaria parasites possess an endogenous SOD. Two bands of endogenous SOD were found at pl 6.2 and 6.8 for the three species, and one additional band was detected at pl 5.7 for P. berghei and P. vinckei. This first report in rodent Plasmodium of a cyanide-resistant, hydrogen peroxide-sensitive SOD suggests that these parasites may be capable of at least partly resisting activated oxygen species using an endogenous SOD.
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PMID:Presence of an endogenous superoxide dismutase activity in three rodent malaria species. 841 38

The production of reactive oxygen intermediates (ROI) by host macrophages has long been recognized as an important defense mechanism against microorganisms. More recently, reactive nitrogen intermediates (RNI), also produced by activated macrophages, have been shown to be part of the host's first line of defense against malaria. In the present in-vitro study we have investigated the effects of antimalarial drugs on RNI production by murine macrophages stimulated by interferon-gamma (IFN-gamma) and/or malaria antigen, and on ROI production induced by phorbol myristate acetate. At concentrations exceeding the peak serum levels achieved with therapeutic dosages, chloroquine, in a dose-dependent manner, inhibited IFN-gamma- and malaria antigen-induced RNI production. Quinine, at a concentration of 10 mg/L also caused a significant reduction in IFN-gamma and malaria antigen-induced RNI synthesis; this concentration was well within the therapeutic range. High concentrations of artelinate significantly inhibited IFN-gamma-induced RNI production but clindamycin had no effect on RNI synthesis. In contrast, halofantrine, in concentrations attainable with therapeutic dosages, significantly enhanced IFN-gamma-induced RNI production. ROI production by murine macrophages was unaffected by the antimalarial drugs over the same concentration ranges. It remains to be determined whether these in-vitro effects of antimalarial drugs on RNI production also influence the clinical and parasitological response in patients with malaria.
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PMID:Interference by antimalarial drugs with the in-vitro production of reactive nitrogen intermediates by murine macrophages. 848 72

Specific treatment of canine babesiosis consists of antibabesial drugs and, in severely anaemic animals, blood transfusion. Supportive therapy is also required, particularly in animals with complicated disease. Strategies for treatment of uncomplicated and complicated babesiosis are discussed. Definitive recommendations cannot be provided on the basis of available information, but suggestions are made, based on accepted therapeutic principles, pathophysiological mechanisms, therapy used in human malaria, and clinical experience. The problems of fluid therapy in complicated babesiosis, particularly in animals with oliguria, cerebral babesiosis and pulmonary oedema, are presented, with consideration given to the use of hypertonic fluids. The benefits of bicarbonate and alternative alkalinisers in life-threatening lactic acidaemia, a relatively common occurrence in complicated babesiosis, are debated, as are the benefits of oxygen therapy in anaemic hypoxia. Drug therapy and management of specific babesial complications are discussed. The rationale for supportive drugs commonly used in uncomplicated babesiosis, including lipotropic agents, haematinics and glucocorticoids, is examined. This review is designed to propose therapeutic guidelines and to stimulate interest in problematic aspects of supportive therapy for canine babesiosis.
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PMID:Supportive treatment of canine babesiosis. 854 69

After 4 hours of stimulation of human mononuclear leukocytes in the presence of 300 ng/ml exogenous Plasmodium falciparum antigens, the ICAM-1 expression increased variably from 15% to 375%. Simultaneously, an increase of IL-1 mRNA production could be observed in Northern blot hybridizations with a specific cDNA gene probe for human IL-1 alpha labelled with digoxigenin. Furthermore, the reactive oxygen intermediates (ROI) production was also found to be enhanced in similar conditions. Additionally, when the levels of soluble ICAM-1 (sICAM-1) in plasma of 122 patients with P. falciparum or Plasmodium vivax malaria were analyzed in an enzyme immunoassay (EIA), significant sICAM-1 increases were found, more pronounced in patients with P. falciparum malaria, in comparison with healthy controls and with the same patients 4 weeks after chemotherapy. The presented results indicate that the expression of ICAM-1 may also be upregulated by exogenous Plasmodium antigens besides cytokines like IL-1 during the acute phase of malaria, with subsequently elevated sICAM-1 concentrations in blood.
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PMID:Upregulation of ICAM-1, IL-1 and reactive oxygen intermediates (ROI) by exogenous antigens from Plasmodium falciparum parasites in vitro, and of sICAM-1 in the acute phase of malaria. 859 25

The phagocytosis of erythrocytes may contribute to the increased susceptibility to life-threatening infections in patients with burn injury, sickle cell anemia, and malaria. The phagocytosis of immunoglobulin G-coated erythrocytes (EIgG) is followed by a transient depression of several macrophage functions including phagocytosis, respiratory burst capacity, and killing of bacteria. The present study suggests the possibility that after erythrophagocytosis hemoglobin-derived iron conspires with reactive oxygen products of the macrophage respiratory burst to cause oxidant damage to the phagocyte. Challenge of elicited peritoneal macrophages with EIgG phagocytosis was followed by an increase in lipid peroxidation as assessed by thiobarbituric acid-reactive substances (TBARS). Doses of EIgG associated with increased TBARS also caused a depression of Fc receptor-mediated phagocytosis and phorbol myristate acetate (PMA)-stimulated hydrogen peroxide production. Time course experiments demonstrated that the increase in TBARS coincided with the depression of macrophage function. There was no increase in TBARS following the phagocytosis of IgG-coated erythrocyte ghosts, suggesting that hemoglobin iron is involved in the generation of TBARS. The phagocytosis of erythrocyte ghosts did not depress macrophage function. Since complement receptor-mediated phagocytosis does not stimulate the respiratory burst, the role of the respiratory burst in causing lipid peroxidation was assessed using the phagocytosis of complement-coated erythrocytes. Phagocytic challenge with complement-coated erythrocytes caused neither an increase in TBARS nor a depression of macrophage function. However, there was an increase in TBARS when the respiratory burst was stimulated with PMA following complement receptor-mediated phagocytosis of erythrocytes. These results suggest that hemoglobin iron and phagocyte-generated oxidants collaborate to cause the depression of macrophage function following EIgG phagocytosis.
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PMID:Macrophage dysfunction following the phagocytosis of IgG-coated erythrocytes: production of lipid peroxidation products. 860 13

When murine peritoneal macrophages were loaded in vitro with Plasmodium vinckei hemozoin and stimulated with opsonized zymosan for 90 min or with lipopolysaccharide and/or murine interferon-gamma for 24 hr, significant decreases in the production of oxygen radicals and nitrogen oxides, respectively, could be detected by comparison with macrophages without hemozoin. Moreover, nonradioactive in situ hybridization and immunohistologic analysis in liver sections of P. vinckei-infected mice with more than 60% parasitemia showed that liver cells were still expressing considerable levels of inducible nitric oxide synthase in the late phase of murine malaria, but most of the liver macrophages presenting accumulation of malaria pigment were negative in this analysis. These results further indicate that malaria pigment accumulation may be responsible for toxicity and impairment of macrophage functions during murine malaria.
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PMID:Effects of Plasmodium vinckei hemozoin on the production of oxygen radicals and nitrogen oxides in murine macrophages. 868 81


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