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)

Macrophage activation was examined in resistant C57BL/6 and susceptible A/J mice during the course of blood-stage infection with Plasmodium chabaudi AS. Three parameters of macrophage activation (lipopolysaccharide [LPS]- and malaria antigen-induced tumor necrosis factor [TNF] production in vitro, phorbol myristate acetate [PMA]-induced production of oxygen metabolites in vitro, and Ia antigen expression) were assessed during infection in populations of peritoneal and splenic macrophages recovered from infected mice of the two strains. The peak level of LPS-induced TNF production in vitro by splenic macrophages from both infected C57BL/6 and infected A/J mice occurred on day 7, which was 3 days before the peak of parasitemia. Although the kinetics of TNF production in vitro in response to either LPS, soluble malaria antigen, or intact parasitized erythrocytes varied in some of the other macrophage populations during infection, there was no significant difference in the peak level of production. Peritoneal and splenic macrophages from infected C57BL/6 mice exhibited significantly increased PMA-induced production of H2O2 in vitro on day 7. Peritoneal macrophages from infected A/J mice also exhibited significant PMA-induced H2O2 production on day 7, while production by splenic macrophages from these hosts was not increased in comparison with production by cells from normal animals. Only peritoneal macrophages from infected C57BL/6 mice produced significantly increased levels of O2-, and this occurred on day 7 postinfection. Ia antigen expression by both peritoneal and splenic macrophages from resistant C57BL/6 and susceptible A/J mice was significantly increased during P. chabaudi AS infection. However, the percentage of Ia+ peritoneal macrophages on days 8 and 10 postinfection and Ia+ splenic macrophages on day 3 postinfection was significantly higher in C57BL/6 than in A/J mice. Thus, these results demonstrate that macrophages from P. chabaudi AS-infected A/J mice exhibit defects in oxygen metabolism and Ia antigen expression which may contribute to the susceptibility of these hosts to this intraerythrocytic parasite. The cause-and-effect relationship between these defects and the susceptibility of A/J mice to P. chabaudi AS is unknown.
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PMID:Macrophage activation during Plasmodium chabaudi AS infection in resistant C57BL/6 and susceptible A/J mice. 131 5

Human monocyte-derived macrophages ingest diamide-treated red blood cells (RBC), anti-D immunoglobulin (Ig)G-opsonized RBC, or Plasmodium falciparum ring-stage parasitized RBC (RPRBC), degrade ingested hemoglobin rapidly, and can repeat the phagocytic cycle. Monocytes fed with trophozoite-parasitized RBC (TPRBC), which contain malarial pigment, or fed with isolated pigment are virtually unable to degrade the ingested material and to repeat the phagocytic cycle. Monocytes fed with pigment display a long-lasting oxidative burst that does not occur when they phagocytose diamide-treated RBC or RPRBC. The phorbol myristate acetate-elicited oxidative burst is irreversibly suppressed in monocytes fed with TPRBC or pigment, but not in monocytes fed with diamide-treated or IgG-opsonized RBC. This pattern of inhibition of phagocytosis and oxidative burst suggests that malarial pigment is responsible for the toxic effects. Pigment iron released in the monocyte phagolysosome may be the responsible element. 3% of total pigment iron is labile and easily detached under conditions simulating the internal environment of the phagolysosome, i.e., pH 5.5 and 10 microM H2O2. Iron liberated from pigment could account for the lipid peroxidation and increased production of malondialdehyde observed in monocytes fed with pigment or in RBC ghosts and liposomes incubated at pH 6.5 in presence of pigment and low amounts of H2O2. Removal of the labile iron fraction from pigment by repeated treatments with 0.1 mM H2O2 at pH 5.5 reduces pigment toxicity. It is suggested that iron released from ingested pigment is responsible for the intoxication of monocytes. In acute and chronic falciparum infections, circulating and tissue-resident phagocytes are seen filled with TPRBC and pigment particles over long periods of time. Moreover, human monocytes previously fed with TPRBC are unable to neutralize pathogenic bacteria, fungi, and tumor cells, and macrophage responses decline during the course of human and animal malaria. The present results may offer a mechanistic explanation for depression of cellular immunity in malaria.
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PMID:Impairment of macrophage functions after ingestion of Plasmodium falciparum-infected erythrocytes or isolated malarial pigment. 140 49

Oxidative stress has been incriminated as a deleterious factor in the development of malaria parasites. Various chemical reductones which can undergo cyclic oxidation and reduction, such as ascorbate have been shown to cause oxidative stress to red blood cells. This, naturally-occurring and redox-active compound, can induce the formation of active oxygen derived species, such as superoxide radicals (.O2-), hydrogen peroxide (H2O2) and hydroxyl radical (OH.). The formation of the hydroxyl radical, the ultimate deleterious species, is mediated by the redox-active and available transition metals iron and copper in the Haber-Weiss reaction. During the development of the parasite, hemoglobin is progressively digested and a concurrent release of high levels of iron-containing breakdown products takes place within the red blood cell. Indications for the progressive increase in redox-active iron during the growth of P. falciparum have been recently found in our lab: a) adventitious ascorbate proved highly detrimental to the parasite when added to the mature forms. In contrast, if the parasitized erythrocytes were in the early phase following invasion, and only low levels of iron-containing structures had been liberated, then the observed effect was a small promotion of parasite development. b) erythrocytes containing mature parasites were more potent than erythrocytes containing ring forms as a source for redox-active iron in the ascorbate-driven metal-mediated degradation of DNA. The addition of extracts from parasitized erythrocytes and ascorbate to DNA caused a dose and time dependent DNA degradation. Non-infected erythrocytes had no effect.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Induction of oxidant stress by iron available in advanced forms of Plasmodium falciparum. 206 Aug 37

Among other macrophage secretory products, H2O2 plays an important role in the host's defense against malaria (Wozencraft et al., Infect. Immun., 43, 664, (1984]. In our in vitro studies on the human malaria parasite Plasmodium falciparum, hydrogen peroxide was produced by the alcohol oxidase-catalyzed reaction ethanol + O2----acetaldehyde + H2O2 (EC 1.1.3.13). At concentrations of 8.7 mM (= 0.5%) ethanol and 0.1 U alcohol oxidase per ml culture, more than 95% of the parasites were irreversibly damaged. Acetaldehyde was found to be parasiticidal per se--probably by releasing immature forms of P. falciparum from erythrocytes--but CH3CHO concentrations as high as 90 mM were required for complete elimination of the parasites. Ethanol (less than 20 mM) or alcohol oxidase alone had no significant effect on parasite viability. As discussed, the ethanol/alcohol oxidase system might be of interest as a potential chemotherapeutic principle, especially since metabolism and pharmacology of the substrates and products are well understood.
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PMID:Antimalarial activity of the ethanol/alcohol oxidase system in vitro. 218 76

N,N'-Bis(benzyl)polyamine analogs were found to be substrates for highly purified polyamine oxidase. Metabolism of these analogs was apparently dependent on molecular O2 and resulted in the formation of benzaldehyde, H2O2, and a polyamine analog with free terminal amines. The debenzylation reaction was optimal between pH 9 and 10, identical to the pH optimum for polyamine oxidase activity when N1-acetylspermine was used as the substrate. On a molecular sieve column the debenzylating activity co-eluted with N1-acetylspermine oxidizing activity, at an apparent molecular mass of approximately 65 kDa. The purified enzyme also appeared to have a molecular mass of approximately 65 kDa on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Debenzylation of the bis(benzyl)polyamines was competitively inhibited by N1-acetylspermine and N1-acetylspermidine. The specific irreversible inhibitor of polyamine oxidase, N1,N4-bis(buta-2,3-dienyl)butanediamine also inhibited the debenzylation, whereas inhibitors of diamine and monoamine oxidases did not. The evolution of benzaldehyde from bis(benzyl)polyamine analogs by polyamine oxidase allowed the development of a simple rapid spectrophotometric assay for use in the measurement of polyamine oxidase activity in partially purified tissue or cell extracts. Further, metabolism of a bis(benzyl)polyamine analog by polyamine oxidase was found to be an important element in the growth inhibitory properties of the compound in a mouse model of malaria.
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PMID:Bis(benzyl)polyamine analogs as novel substrates for polyamine oxidase. 229 9

IFN-gamma plays an important role in host defense against microbial disease. Here, we studied the role of IFN-gamma in lethal and nonlethal murine malaria. Administration of recombinant murine IFN-gamma resulted in a dose-dependent protection of SW, BALB/cByJ, and CBA/J mice from the lethal variant of Plasmodium yoelii 17x (PyL) but had little effect on the course of the nonlethal variant of this parasite (PyNL). Administration of recombinant IFN-gamma also resulted in the activation of peritoneal macrophages for increased phagocytosis of malaria-infected erythrocytes and release of H2O2, as measured in vitro. The ability of spleen cells from infected mice to produce endogenous IFN-gamma and release H2O2 during the course of malaria was also studied. In BALB/cByJ mice, which are relatively susceptible to PyL and PyNL, there was an initial burst of IFN-gamma only in response to PyNL whereas in CBA/J mice, which are relatively resistant to these parasites, there was an initial burst of IFN-gamma in response to both PyL and PyNL. The kinetics of H2O2 release corresponded to that of IFN-gamma. In all infections, levels of IFN-gamma declined as parasitemia increased; however, nonlethal infections were characterized by a recovery of both IFN-gamma activity and H2O2 release as parasitemia declined. These data suggest that IFN-gamma may play an important role in modulating the course of malaria infections by activating macrophages for both intracellular and extracellular parasite destruction.
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PMID:Role of IFN-gamma in lethal and nonlethal malaria in susceptible and resistant murine hosts. 250 74

The role of splenic leukocyte oxidative activity and macrophage activation in the development of protective immunity was examined during acute Plasmodium chabaudi adami malaria. Splenic leukocyte oxidative activity was compared in infected BALB/c and P/J mice; the latter are known to suffer from defects in macrophage function. Phorbol myristate acetate-stimulated chemiluminescence and superoxide anion production by splenic leukocytes from infected BALB/c mice were found to be increased dramatically, while the response of splenic leukocytes from infected P/J mice was elevated only minimally. Hydrogen peroxide release was slightly increased in splenic leukocytes from infected BALB/c mice but remained essentially unchanged in those from infected P/J mice. Macrophage function was assessed on the basis of measurements of tumoricidal activity. Splenic macrophages from uninfected BALB/c mice displayed significant tumoricidal activity against L929 target cells. As a result of splenomegaly during infection, tumoricidal activity, when calculated on a per-spleen basis, was increased further in infected BALB/c mice. In contrast, the tumoricidal activity of splenic macrophages from P/J mice was minimal, regardless of infection. Despite these differences, both strains of mice developed malarial infections that resolved within 16 days. Thus, while the production of reactive oxygen radicals by splenic leukocytes and the phenomenon of macrophage activation have traditionally been associated with the resolution of malarial infection, this study failed to establish a correlation between these parameters and the development of protective immunity to blood-stage infection with P. chabaudi adami.
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PMID:Reassessment of the role of splenic leukocyte oxidative activity and macrophage activation in expression of immunity to malaria. 255 11

Oxidative stress in malaria infected human erythrocytes is augmented and the anti-oxidant system is attenuated as compared with normal RBC's. Exacerbation of intra-erythrocytic oxidative stress might provide a means to kill the parasites. Sodium artesunate (SA), an effective Chinese anti-malaria drug, markedly increased the levels of active oxygen species and production of malonyldialdehyde in normal red blood cells and, to a greater extent, in malaria infected red blood cells. SA caused a remarkable decrease of unsaturated fatty acids content in normal red blood cell membrane. These suggest that the anti-oxidative system in red blood cells infected with malaria is jeopardized. Certain active oxygen species generated and accumulated in such red blood cells might in turn kill the parasites. SA augmented intracellular O2-. and H2O2 production, and this may partly account for its antimalaria action.
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PMID:Effect of sodium artesunate on malaria infected human erythrocytes. 269 76

Secretion of TNF from mouse peritoneal macrophages exposed to LPS in vitro was enhanced in the presence of H2O2 or sodium periodate. Neither of these agents induced release of TNF in the absence of LPS. Both iron chelators and free radical scavengers inhibited this enhanced secretion of TNF, implying the involvement of free radicals via a Fenton-type reaction. Oxidant stress, in the form of alloxan or divicine, also enhanced serum levels of TNF in mice made sensitive to LPS by low-level infection with malaria, and then given i.v. LPS. Pretreatment with the iron chelator, desferal, or the free radical scavenger, BHA, inhibited TNF release in these animals. Less TNF was also detected in mice given desferal before LPS in the absence of exogenous radical generator. These results could have implications for understanding the details of the MLR, the adherence of neutrophils to the walls of pulmonary vessels in free radical-induced lung pathology, and the side effects of bleomycin.
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PMID:Reactive oxygen species facilitate the in vitro and in vivo lipopolysaccharide-induced release of tumor necrosis factor. 274 81

To test the hypothesis that the resistance of sickle trait (AS Hgb) erythrocytes (rbcs) to malaria may be mediated by increased production of activated oxygen species, the production of superoxide anion (O2-) and hydrogen peroxide (H2O2) by AS rbcs and normal (AA Hgb) rbcs was measured under defined conditions. Formation of O2- and H2O2 was time, temperature and oxygen saturation dependent. Reproducible measurement of O2- formation required the presence of 0.2 mmol l-1 KCN to inhibit a cytochrome oxidase activity found in the cytochrome C preparation used. There was an inverse relationship between cell concentration and O2- and H2O2 formation. Use of the inhibitor of superoxide dismutase (SOD), diethyldithiocarbamic acid, increased the amount of O2- measured. When rbcs from blacks with AS Hgb and with AA Hgb were incubated under standardized conditions, significantly (P less than 0.05) more O2- was formed by AS than AA cells (24.3 v. 14.5 mmol per mol Hgb). These findings show that AS rbcs can generate more O2- than AA rbcs. The increased formation of O2- by rbcs containing AS Hgb may contribute to the resistance of AS rbcs to malarial parasitism.
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PMID:Generation of superoxide anion and hydrogen peroxide by erythrocytes from individuals with sickle trait or normal haemoglobin. 301 34

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