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: DrugBank:BIOD00017 (IFN-gamma)
28,919 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The co-localization of activated macrophages and damaged neurons observed in brain injury and degenerative brain diseases may hint to macrophage-induced neuronal cytotoxicity. Recently, macrophages have been found to secrete neurotoxic molecules such as radical oxygen intermediates and glutamate, the latter interacting with N-methyl-D-aspartate (NMDA) receptors. As shown in the present study, brain macrophages termed microglial cells co-cultured with differentiated cerebellar neurons excert potent neurotoxic effects. Neurotoxicity is unlikely to be due to cytokines since tumor necrosis factor (TNF)-alpha, interleukin (IL)-1 beta, IL-6 and interferon (IFN)-alpha/IFN-beta/IFN-gamma had no such effects. In contrast, when treating neurons with H2O2 or oxygen radical-generating systems cytotoxicity was induced. Furthermore, microglia were found to produce O2- and H2O2 when triggered with phorbol 12-myristate 13-acetate. However, in co-cultures of neurons and microglia, oxygen-radical scavengers catalase and superoxide dismutase, failed to protect neurons from microglia-induced killing. Moreover, when using undifferentiated neurons which are susceptible to H2O2 but not to NMDA receptor-dependent killing, microglia did not destroy the neurons. Thus, the amount of reactive oxygen intermediates produced by microglia in co-culture do not reach the critical concentrations required for neurotoxicity. As dibenzocyclohepteneimide, an antagonist to NMDA receptors neutralized neurotoxicity in microglia-neuronal co-cultures, excitatory amino acids released by microglia are suggested to compose the major determinant of neurotoxicity.
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PMID:Macrophage-induced cytotoxicity of N-methyl-D-aspartate receptor positive neurons involves excitatory amino acids rather than reactive oxygen intermediates and cytokines. 135 33

We describe a patient with leucocyte adhesion deficiency (LAD). Clinically, the patient had delayed umbilical cord detachment, omphalitis, impaired wound healing and persistent leucocytosis. The patient had the severe form of LAD, with a total absence of leucocyte cell adhesion molecules (LeuCAMs) and undetectable mRNA for the beta chain, the common subunit of the LeuCAMs. In vitro neutrophil chemotaxis, aggregation and oxygen consumption were severely impaired. In vitro incubation of neutrophils with recombinant human interferon-gamma (rIFN-gamma) showed an increase in oxygen consumption, but no effect on the expression of the LeuCAMs, or the beta chain mRNA. In vivo treatment with IFN-gamma was started. The Fc gamma RI receptor appeared on the neutrophils, the LeuCAMs remained undetectable, while the neutrophil functions remained disturbed. The patient died of surgical complications after 10 weeks of rIFN-gamma treatment. No new infections or side-effects due to rIFN-gamma were observed.
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PMID:Recombinant human interferon-gamma treatment in severe leucocyte adhesion deficiency. 153 50

The growth of mycobacteria in human macrophages was examined at an ambient concentration of oxygen (5% CO2 and 95% air, corresponding to 20% O2 or 140 mm Hg PO2) and at a concentration corresponding to tissue levels (5% O2 and 5% CO2 in nitrogen balance, corresponding to 36 mm Hg PO2). Compared with the higher PO2 level, macrophages cultivated at lower PO2 level spread more widely and had an increased glycolytic and decreased oxidative metabolism. Upon PMA stimulation, they displayed a better preserved ability to produce superoxide anion and to respond to IFN-gamma priming by increased superoxide anion production. When infected with either Mycobacterium tuberculosis or Mycobacterium avium, macrophages cultured with the lower PO2 level permitted significantly less growth than those cultured at the higher PO2 level. From Day 0 to Day 7, M. tuberculosis grew an average of 0.39 and 1.17 log CFU in macrophages cultured at lower and higher PO2, respectively (p less than 0.0001). From Day 0 to Day 3 of infection, M. avium decreased in macrophages cultured at lower PO2 on average by 0.19 log CFU but grew by 0.34 log CFU in macrophages cultured at higher PO2 (p = 0.0001). Mycobacteria grew equally well in macrophage-free media at either PO2. Crude lymphokines, rIFN-gamma, or rTNF-alpha did not consistently affect the growth of mycobacteria in macrophages at either high or low oxygen conditions. In conclusion, mycobacteria displayed a reduced growth when cultivated in macrophages at a physiologic PO2 that did not reduce the growth of extracellular bacteria. This effect of PO2 on macrophage antimycobacterial power might explain the preferential localization of tuberculous lesions in body areas with high tissue PO2, such as the lung apex.
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PMID:Reduced intracellular growth of mycobacteria in human macrophages cultivated at physiologic oxygen pressure. 155 24

Endothelial cells produce nitric oxide which is considered to serve as a major source of endothelial derived relaxing factor activity. It has been demonstrated that activation of mouse brain endothelium by TNF-alpha and IFN-gamma led to accumulation of nitrite which is presumably formed by oxidation of nitric oxide. A number of studies suggest that reactive oxygen species produced by cytokine-activated cells are involved in the conversion of nitric oxide to nitrites and nitrates. We investigated whether low density lipoprotein (LDL), acting as a radical scavenger, is able to inhibit nitrite accumulation in mouse brain endothelial cell cultures and in a cell-free system in which sodium nitroprusside was used as a source of nitric oxide. A comparison of these two models indicates the active involvement of LDL in suppressing nitrite accumulation in murine endothelial cultures.
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PMID:Low density lipoprotein inhibits accumulation of nitrites in murine brain endothelial cell cultures. 163 73

Production of O2- in response to FMLP, TNF, IFN-gamma, platelet activating factor, LPS, substance P, and PMA by human eosinophils in suspension and in contact with polystyrene ELISA plastic (PL) or biologic surfaces was studied. Monolayers of human endothelial cells (HEC) or PL coated with FCS, fibronectin, laminin, collagen types I and IV, fibrinogen, or fibrin were used as biologic surfaces. Only PMA and FMLP stimulated O2- generation by eosinophils in suspension. Eosinophils residing on HEC monolayers, either untreated or treated with LPS, were unresponsive to all stimuli except PMA. PMA induced O2- generation by eosinophils on all surfaces; FMLP on all surfaces but HEC monolayers; TNF and platelet-activating factor only on PL, fibrinogen, and fibrin; LPS and substance P only on PL. PMA was equally effective on eosinophils on surfaces and in suspension, whereas the effect of FMLP was greater on eosinophils on surfaces than on eosinophils in suspension. IFN-gamma was ineffective on any of the surfaces tested. These results indicate that biologic surfaces may profoundly affect the ability of eosinophils to respond with a respiratory burst to physiologically relevant soluble stimuli, the effect varying according to the nature of both the stimulus and the surface. Since the respiratory burst generates products of oxygen reduction that are toxic to several tissue components, it follows that biologic surfaces may modulate eosinophil-induced tissue injury.
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PMID:Eosinophil activation on biologic surfaces. Production of O2- in response to physiologic soluble stimuli is differentially modulated by extracellular matrix components and endothelial cells. 171 13

DMN exposure has been shown to increase macrophage cytotoxic activity against tumor targets both in vitro and in vivo. Since the production and expression of the macrophage-derived cytokine tumor necrosis factor-alpha (TNF-alpha) is associated with such anti-tumor activity, studies were performed to determine whether changes in TNF-alpha gene transcription and biosynthesis resulted following DMN exposure. Thioglycollate-elicited macrophages obtained from DMN-exposed animals displayed enhanced levels of constitutively expressed TNF-alpha transcripts compared to vehicle controls. Northern blot analysis of the time course expression of TNF-alpha following endotoxin (1 microgram/ml) stimulation in vitro showed a significantly greater induction of TNF-alpha transcripts in macrophages from DMN-exposed than control animals, with peak levels detected between 30 and 120 min. Maximum endotoxin-induced TNF-alpha secretion occurred later than the accumulation of the transcripts, with greater secretion observed between 120 and 360 min. In contrast to endotoxin, stimulation with IFN-gamma (100 U/ml) produced no changes in the level of TNF-alpha transcripts. However, stimulation of macrophages with IFN-gamma did greatly enhance the surface expression of membrane-bound TNF-alpha in cells from the DMN-treated animals. Supernatants from media and endotoxin stimulated macrophage were tested for TNF-alpha activity against WEHI-164 cells. In media alone, a five-fold increase in TNF-alpha activity was observed at 6 h in supernatants from macrophage obtained from DMN-exposed animals compared to the vehicle group. Treatment of supernatants with either superoxide dismutase (SOD) or catalase to remove reactive oxygen products did not alter their lytic capacity. However, addition of a neutralizing murine-anti-TNF-alpha antibody reduced the lytic capacity of the supernatants by 90% in both treatment groups. Accumulation of IL-1 beta transcripts gradually increased over the 6 h with a concomitant increase in secreted IL-1 beta that was identical in both DMN and vehicle groups. These results demonstrate that DMN exposure: (1) enhances the expression of TNF-alpha in peripheral macrophages by transcriptional regulatory mechanism(s) and, (2) does not alter the expression or secretion of IL-1 beta.
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PMID:Transcriptional changes in macrophage TNF-alpha expression following dimethylnitrosamine exposure in vivo. 179 Nov 40

Murine peritoneal macrophages were isolated and their ability to restrict growth of a virulent Mycobacterium tuberculosis in response to IFN-gamma was assessed in various conditions. Doses of IFN-gamma ranging from 10 to 100 U stimulated high levels of antimycobacterial activity, as seen by inhibition of growth. Addition of catalase, superoxide dismutase, and other scavengers of reactive oxygen species before infection failed to abrogate this restriction of growth, suggestive of a lack of involvement of reactive oxygen species in this phenomenon. Addition of arginase before infection inhibited the bacteriostatic ability of IFN-gamma-pulsed macrophages as did addition of NG-monomethyl L-arginine, an inhibitor of the synthesis of inorganic nitrogen oxide. In both cases, this inhibition was reversed by adding excess L-arginine in the medium. Moreover, nitrite production in macrophages was correlated with their ability to restrict tubercle bacilli growth. These results imply that nitric oxide or another inorganic nitrogen oxide is an important effector molecule in restricting growth of M. tuberculosis in IFN-gamma-pulsed murine macrophages.
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PMID:Interferon-gamma-treated murine macrophages inhibit growth of tubercle bacilli via the generation of reactive nitrogen intermediates. 190 84

A role has been proposed for inflammatory mediators such as gamma interferon (IFN-gamma) and reactive oxygen intermediates in the control of the blood stages of Plasmodium organisms. It was previously shown that IFN-gamma can be detected in the plasma of mice with a primary infection by Plasmodium chabaudi chabaudi (AS). We found that susceptible and other resistant mouse strains produced IFN-gamma, suggesting that susceptibility is not due to a defect in IFN-gamma production. Administration of IFN-gamma to intact C57BL/6 mice slightly decreased and partially delayed parasitemia, whereas in vivo depletion of IFN-gamma through injection of a "cocktail" of monoclonal antibodies against IFN-gamma exacerbated infection. Since CD4+ T cells are essential for the development of a protective immune response to P. chabaudi chabaudi, we tested whether CD4+ T cells are responsible for IFN-gamma production in vivo and whether exogenous IFN-gamma can replace the protective function of the CD4+ T cells. Mice depleted of CD4+ T cells were unable to produce IFN-gamma, but factors in addition to IFN-gamma may be important in parasite clearance.
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PMID:Role of gamma interferon during infection with Plasmodium chabaudi chabaudi. 197 6

Ferric ammonium citrate (FAC) is nonmitogenic for human peripheral blood mononuclear cells (PBM) but has a potent mitogenic activity in the presence of IL-2. FAC in the presence of IL-2 increases the number of human peripheral blood mononuclear cells (PBM) expressing receptors for IL-2 and transferrin. FAC also markedly stimulates human PBM treated with supraoptimal, nonmitogenic concentrations of Con A. FAC, in the presence of IL-2, is a T-cell mitogen with a stringent requirement for macrophages. FAC stimulates the production of TNF-alpha and IFN-gamma in human PBM, and this effect is potentiated by IL-2. Thiourea and 3-amino-1,2,4-triazole selectively inhibit mitogenesis induced by FAC, indicating that oxygen radicals or peroxidase may mediate the triggering signal induced by this mitogen. In addition to hemin, as we have previously reported, and FAC, a variety of iron-containing proteins have lymphocyte stimulatory properties in combination with IL-2. They include horseradish peroxidase, cytochrome c, myoglobin, and transferrin. We have given the name ferro-mitogens to this group of compounds.
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PMID:Ferro-mitogens: iron-containing compounds with lymphocyte-stimulatory properties. 201 30

Recent evidence suggests that reactive oxygen intermediates may play a role in the etiology of cartilage matrix degradation in arthritis. We have previously established that normal articular chondrocytes can functionally act as macrophages. These functions include expression of class II MHC Ag, presentation of Ag and induction of mixed and autologous lymphocyte stimulation. Inasmuch as the production of reactive oxygen intermediates is a hallmark of macrophage activity during inflammatory response, we were interested in examining the ability of normal articular chondrocytes to produce reactive oxygen intermediates. Using the trapped indicator 2',7'-dichlorofluorescin diacetate (DCFH-DA), we measured the levels of intracellular hydrogen peroxide within normal rabbit articular chondrocytes. We found that Concanavalin A induces chondrocytes to rapidly oxidize 2',7'-dichlorofluorescin diacetate to a highly fluorescent dichlorofluorescin in a dose- and time-dependent manner. Fluorescent dichlorofluorescin oxidation by chondrocytes was inhibited by the addition of catalase, an enzyme that detoxifies hydrogen peroxide. Exposure of rabbit chondrocytes to either IFN-gamma or TNF primed the chondrocytes to produce significantly greater amounts of hydrogen peroxide with or without further stimulation. Using scopoletin oxidation as a measure of the release of hydrogen peroxide, we confirmed that chondrocytes released this reactive oxygen intermediate after adherence to serum coated culture plates. Rabbit articular chondrocytes produced and released greater amounts of hydrogen peroxide than pulmonary alveolar macrophages, a well characterized macrophage cell type. These observations suggest that chondrocytes are an important source of reactive oxygen intermediates. Furthermore, the production of reactive oxygen intermediates by chondrocytes may be an important mechanism by which chondrocytes induce structural and functional alterations in cartilage matrix observed during arthritis.
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PMID:Production of hydrogen peroxide by rabbit articular chondrocytes. Enhancement by cytokines. 211 47


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