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)

Lipid peroxide, lipid hydroperoxide, reduced glutathione, oxidised glutathione, lipofuscin contents and the activity of the enzyme superoxide dismutase were assessed in P. berghei infected M. natalensis brain. The results showed significant increase in the levels of lipid peroxides, lipid hydroperoxides and lipofuscin in brain subcellular fractions of P. berghei infected M. natalensis. Furthermore, a depressed superoxide dismutase activity was observed along with regulation in glutathione content. An elevated level of lipid peroxidation products along with depressed activity of scavengers in brain during malaria highlights the role of free radicals in malarial pathology.
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PMID:Role of free radicals in Plasmodium berghei infected Mastomys natalensis brain. 129 84

A recombinant iron-containing superoxide dismutase (recFeSOD) of Entamoeba histolytica was produced in a prokaryotic expression system. Purified recFeSOD was found to be enzymatically active as determined by (i) inhibition of ferri-cytochrome c reduction, (ii) dismutation of superoxide anions generated by human neutrophils and (iii) inhibition of nitroblue tetrazolium reduction. The enzymatic properties of recFeSOD were similar to those of the native protein in trophozoite extracts. In an ELISA using recFeSOD as antigen, 96% of sera from patients having invasive amebiasis were reactive whereas none of the healthy controls or of patients suffering from malaria, bacterial or viral infections were reactive. Only sera of Toxoplasma-, Leishmania- or Trypanosoma-infected individuals exhibited partial cross-reactivity to recFeSOD.
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PMID:Recombinant expression, purification and biochemical characterization of a superoxide dismutase from Entamoeba histolytica. 134 Mar 12

Erythrocyte antioxidants catalase, superoxide dismutase, reduced glutathione and glutathione peroxidase were studied in cells harbouring different growth stages of Plasmodium falciparum. Catalase and superoxide dismutase showed significant decrease during parasite maturation indicating hampered metabolism of hydrogen peroxide and superoxide anions. Glutathione peroxidase also exhibited a downward trend during the growth of P. falciparum, while there was a moderate accumulation of reduced glutathione. These findings suggest decreased utilization of the reduction potential in detoxification of reactive oxygen species. The fall in all three antioxidant enzymes studied was highly significant (P less than 0.001) in erythrocytes with mature stages of the parasite (trophozoites, schizonts). The increased vulnerability of erythrocytes to damage, which parallels the growth phases of the parasite emphasizes the need for early treatment of P. falciparum malaria to minimise red cell destruction and the resulting anaemia.
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PMID:Plasmodium falciparum induced perturbations of the erythrocyte antioxidant system. 139 36

Dihydroorotate dehydrogenase purified from mitochondria of Plasmodium berghei, a rodent malaria parasite, mediates production of superoxide radical during oxidation of dihydroorotate to orotate. Reduction of dichlorophenolindophenol or cytochrome c or nitroblue tetrazolium was significantly inhibited by superoxide dismutase or theonyltrifluoroacetone, a specific iron chelator of the enzyme. These results, together with the recent evidence of manganese-superoxide dismutase activity in malarial mitochondria [Ranz, A., and Meshnick, S.R. (1989) Exp. Parasitol. 69, 125-128], suggest that the production of superoxide radical may occur in vivo.
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PMID:Malarial dihydroorotate dehydrogenase mediates superoxide radical production. 166 40

A free radical is any species capable of independent existence that contains one or more unpaired electrons. Free radical reactions have been implicated in the pathology of more than 50 human diseases. Radicals and other reactive oxygen species are formed constantly in the human body, both by deliberate synthesis (e.g. by activated phagocytes) and by chemical side-reactions. They are removed by enzymic and nonenzymic antioxidant defence systems. Oxidative stress, occurring when antioxidant defences are inadequate, can damage lipids, proteins, carbohydrates and DNA. A few clinical conditions are caused by oxidative stress, but more often the stress results from the disease. Sometimes it then makes a significant contribution to the disease pathology, and sometimes it does not. Several antioxidants are available for therapeutic use. They include molecules naturally present in the body [superoxide dismutase (SOD), alpha-tocopherol, glutathione and its precursors, ascorbic acid, adenosine, lactoferrin and carotenoids] as well as synthetic antioxidants [such as thiols, ebselen (PZ51), xanthine oxidase inhibitors, inhibitors of phagocyte function, iron ion chelators and probucol]. The therapeutic efficacy of SOD, alpha-tocopherol and ascorbic acid in the treatment of human disease is generally unimpressive to date although dietary deficiencies of the last two molecules should certainly be avoided. Xanthine oxidase inhibitors may be of limited relevance as antioxidants for human use. Exciting preliminary results with probucol (antiatherosclerosis), ebselen (anti-inflammatory), and iron ion chelators (in thalassaemia, leukaemia, malaria, stroke, traumatic brain injury and haemorrhagic shock) need to be confirmed by controlled clinical trials. Clinical testing of N-acetylcysteine in HIV-1-positive subjects may also be merited. A few drugs already in clinical use may have some antioxidant properties, but this ability is not widespread and drug-derived radicals may occasionally cause significant damage.
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PMID:Drug antioxidant effects. A basis for drug selection? 172 62

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

Elevated levels of thiobarbituric acid reactive substances and increased in vitro Heinz body formation in erythrocytes of Plasmodium vivax-infected malarial patients were observed. Radical treatment with chloroquine and primaquine increased the per cent maximal release of thiobarbituric acid reactive substances. Antioxidant enzymes, superoxide dismutase and catalase were decreased significantly in vivax malaria. Superoxide dismutase showed restoration of enzyme activity while catalase activity was increased significantly following therapy, suggesting an active involvement of free radical mechanism.
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PMID:Effect of radical treatment on erythrocyte lipid peroxidation in Plasmodium vivax-infected malaria patients. 178 88

Free radicals, intermediates in the tissue damage caused by radiation, are formed, inter alia, in interactions catalyzed by iron, which synergizes with radiation and some cytostatics (anthracyclins) in causing cell damage. Conversely, iron chelators can counteract cell damage. Similarly, antioxidants can slow atherogenesis, caused in part by oxidative stress and free radicals. Cell damage is also prevented by physiological defense systems like superoxide dismutase, against endogenous free radicals formed by granulocytes, monocytes, etc. Iron can thus induce free radicals which cause DNA double strand breaks and oncogene activation. This is suggested by four epidemiological studies suggesting a higher cancer risk in patients with larger iron stores than in those with small iron stores. In addition to its effect on carcinogenesis, iron can also maintain the growth of malignant cells as well as growth of pathogens. Breast cancer cells, for instance, display 5-15 times more transferrin receptors than normal breast tissue. Iron-carrying transferrin is in fact a growth factor. Hyposideremia in patients with cancer or infection is not a paraphenomenon but a functioning defense mechanism ('nutritional immunity'). If this immunity is broken by iron administration, relapses of diseases like tuberculosis, brucellosis, and malaria have been described. While iron-deficiency anemia should of course be diagnosed, treated and if possible prevented, there are good reasons to avoid over-utilization of medicamental iron.
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PMID:Iron, free radicals and cancer. 182 Apr 88

Ferriprotoporphyrin IX (FPIX) forms a coordination complex with chloroquine, an anti-malarial drug. The FPIX-chloroquine complex strongly promotes the peroxidative cleavage of phospholipid membrane. Iron in the complex is essential for the complex to induce lipid peroxidation. In this paper a more detailed mechanism of the complex promoted lipid peroxidation was investigated. Apotransferrin exhibited no apparent inhibition of the complex evoked lipid peroxidation, indicating no mobilization of iron from the complex. No significant inhibitory effect by superoxide dismutase, catalase and sodium benzoate on the complex induced lipid peroxidative reaction, suggesting little involvement of superoxide anion, hydrogen peroxide and hydroxyl radical in the reaction. Quinine and mefroquine, blood shizontocidal drugs as well as chloroquine, formed a complex with FPIX and each complex more rapidly induced lipid peroxidation than FPIX alone. Primaquine, which is not as effective as quinine or mefroquine on an intraerythrocytic malaria parasite, neither coordinated to FPIX nor promoted lipid peroxidation. The complex formation between FPIX and chloroquine, quinine or mefroquine could play a key role in their anti-malarial actions.
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PMID:The chemical basis for the ferriprotoporphyrin IX-chloroquine complex induced lipid peroxidation. 204 70

A/J and CBA/H mice infected with Plasmodium berghei ANKA, a murine model of cerebral malaria, were used to see whether antioxidants influenced the outcome of this disease. Untreated, infected mice died 7 to 9 days after infection, often with cerebral symptoms. Haemorrhages, mononuclear infiltration and oedema were present in the central nervous system (CNS). Feeding a diet containing 0.75% (w/w) butylated hydroxyanisole (BHA) greatly altered the course of this disease. Death was delayed by up to 2 weeks and mice appeared healthy at parasitaemias that would have caused cerebral symptoms and death had they been on a conventional diet. BHA-fed mice showed few or no cerebral symptoms at a time at which control mice were clearly affected, and greatly reduced haemorrhages, mononuclear infiltration and oedema when the CNS was examined. Similar, but more consistent, protective effects were seen after administration of BHA by repeated injections or in osmotic pumps. The combination of superoxide dismutase and catalase, coupled to polyethylene glycol, when administered intravenously also protected mice against death from cerebral complications. Permeability of the blood-brain barrier was monitored by the use of 125I-labelled bovine serum albumin, 51Cr-labelled erythrocytes and the dye Evans blue, all of which are normally excluded from the CNS. Infected mice on control diet showed an increase in Evans blue staining and 125I and 51Cr retention in the CNS tissue itself. Feeding the diet containing BHA reduced these indices of increased blood-brain barrier permeability. In view of the potent radical scavenging activity of BHA in many other systems it is likely, but unproven, that this is its main role here. The protective effect of superoxide dismutase and catalase lends support to the idea that reactive oxygen species are involved in the pathology of experimental cerebral malaria.
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PMID:Antioxidants can prevent cerebral malaria in Plasmodium berghei-infected mice. 266 24


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