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Target Concepts:
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Query: UNIPROT:P04040 (
Catalase
)
3,577
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Capable effector mechanisms in the human immune response against the cytolytic, protozoan parasite Entamoeba histolytica have not been described. To identify a competent human effector cell, we studied the in vitro interactions of normal human polymorphonuclear neutrophils, peripheral blood mononuclear cells (PBMC), monocytes (MC), and MC-derived macrophages with virulent axenic amebae (strain HMI-IMSS). Amebae killed neutrophils, PBMC, MC, and MC-derived macrophages (P less than 0.001), without loss of parasite viability. The addition of heat-inactivated immune serum did not enable leukocytes to kill amebae, nor did it protect these host cells from amebae. MC-derived macrophages, activated with
lymphokine
elicited by the mitogens conconavalin A, phytohemagglutinin, or an amebic soluble protein preparation (strain HK9), killed 55% of amebae by 3 h in a trypan blue exclusion assay (P less than 0.001); during this time, 40% of the activated macrophages died. Lysis of amebae was confirmed using 111Indium oxine radiolabeled parasites and was antibody independent. Macrophage death appeared to be due to the deleterious effect of lysed amebae rather than the contact-dependent effector mechanisms of E. histolytica. Adherence between activated macrophages and amebae was greater than that between other leukocytes and amebae (P less than 0.001). Microscopic observations, kinetic analysis of the killing of amebae by activated macrophages, and suspension of amebae with adherent activated macrophages in a 10% dextran solution indicated that contact by activated macrophages was necessary to initiate the killing of amebae.
Catalase
but not superoxide dismutase inhibited the amebicidal capacity of activated macrophages (P less than 0.001). However, activated macrophages from an individual with chronic granulomatous disease were able to kill amebae, but not as effectively as normal cells (P less than 0.01). In summary, activated MC-derived macrophages killed virulent E. histolytica trophozoites through a contact-dependent, antibody-independent mechanism involving oxidative-dependent and -independent processes.
...
PMID:Interaction of human leukocytes and Entamoeba histolytica. Killing of virulent amebae by the activated macrophage. 286 84
The effects of gamma interferon (IFN-gamma) on P388D1 cell or mouse resident peritoneal macrophage association (i.e., binding and internalization) with the protozoan Trypanosoma cruzi were studied, as well as the effects of this
lymphokine
on intracellular parasite killing. Incubation of either type of cell with a conditioned medium containing IFN-gamma and traces of interleukin 2 markedly increased the capacities of the cells to associate with virulent blood forms of T. cruzi, as evidenced by significant increases in both the proportion of parasite-associated cells and the number of parasites associated with the cells. Three lines of evidence pointed to IFN-gamma, and not interleukin 2, as the
lymphokine
responsible for the noted effect. First, a conditioned medium containing interleukin 2 but not IFN-gamma failed to enhance P338D1 cell-parasite association. Second, treatment of the IFN-gamma preparation at pH 2 to selectively inactivate IFN-gamma reduced its enhancing effect. Third, recombinant IFN-gamma, devoid of other lymphokines, also enhanced parasite association with P388D1 cells. Incubation of P388D1 cells with IFN-gamma for 24, 48, or 72 h increased cell association with T. cruzi, whereas a 12-h incubation period was insufficient, suggesting that IFN-gamma triggered time-dependent cellular events leading to the enhancement. Treatment of mouse resident peritoneal macrophages with the IFN-gamma-containing conditioned medium also increased the capacity of these cells to kill internalized trypanosomes. P388D1 cells, which showed minimal or no cytotoxicity after mock treatment with medium, displayed cytotoxicity after incubation with the IFN-gamma-containing conditioned medium; similar results were obtained with recombinant IFN-gamma.
Catalase
prevented parasite killing by P388D1 cells, indicating that H2O2 mediated the cytotoxicity. These results, underscoring the regulatory effects of IFN-gamma on macrophage-parasite interactions, suggest a possible role for this
lymphokine
in the mechanisms of host defense active against T. cruzi infection.
...
PMID:Enhancing effects of gamma interferon on phagocytic cell association with and killing of Trypanosoma cruzi. 392 32
Leishmania donovani, the causative agent of visceral leishmaniasis, infects macrophages (M phi ) of susceptible vertebrates. Immunologically activated M phi are leishmanicidal, but the mechanisms involved in the killing process are not well defined. We sought to investigate the role of reactive oxygen intermediates in the killing of L. donovani. Both the free-swimming promastigote and the intracellular amastigote forms were found to be susceptible to killing in vitro by hydrogen peroxide and other oxygen intermediates. Upon phagocytosis by mouse peritoneal M phi, promastigotes elicited a significantly stronger respiratory burst compared with amastigotes as measured by release of superoxide anion. Although amastigotes do not elicit a strong burst of M phi oxidative metabolism during the initial phagocytic event, immunologically activated M phi that acquired leishmanicidal capacity could be triggered to release substantial amounts of H2O2. Hence, the development of leishmanicidal capacity was correlated temporally with enhanced H2O2 generation by the M phi. In contrast, M phi that lost their ability to release significant amounts of H2O2 after several days in culture were unable to eliminate their parasite burden.
Catalase
markedly inhibited the elimination of amastigotes by
lymphokine
-stimulated M phi. In toto, the results implicate reactive oxygen intermediates in killing of the tissue form of L. donovani by its host cell, the mononuclear phagocyte.
...
PMID:A role for oxygen-dependent mechanisms in killing of Leishmania donovani tissue forms by activated macrophages. 628 71
Mouse peritoneal macrophages (M phi) expressed enhanced tumoricidal activity upon in vitro stimulation either with the
lymphokine
M phi-activating factor (MAF) or with fibroblast interferon (IFN-beta). In contrast, M phi suppressive activity on lymphoproliferation was not affected by MAF pretreatment, but was drastically reduced or abolished by IFN-beta.
Catalase
, the enzyme involved in the destruction of hydrogen peroxide (H2O2), did significantly decrease M phi suppressive capacity but had no effect on M phi tumoricidal activity. Analysis of the phagocytosis-dependent H2O2 production by IFN-beta-treated M phi demonstrated a strong impairment of the oxygen metabolite release, which strictly paralleled the decreased M phi suppressive capacity. On the other hand, MAF did not modify H2O2 release by M phi. Studies on M phi antibacterial activity against Salmonella typhimurium, a function thought to depend upon H2O2 production, showed that exposure of M phi to IFN-beta significantly impaired their bactericidal and bacteriostatic capacity, again in close correlation with the decrease in H2O2 production. Thus, IFN-beta appears as modulating both suppressive and antibacterial capacities of M phi through reduction of their oxygen metabolism, whereas regulation of M phi anti-tumour activity is possibly controlled by different mechanisms.
...
PMID:Interferon decreases production of hydrogen peroxide by macrophages: correlation with reduction of suppressive capacity and of anti-microbial activity. 635 20
