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:C0032285 (pneumonia)
54,520 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

T-cell-mediated immunity is crucial for the control of Chlamydia in mice. Recent evidence from studies in an in vitro model of the mucosal epithelium, the polarized epithelial-lymphocyte co-culture (PELC) system, indicated that protective murine T cells mediated intracellular inhibition of the Chlamydia trachomatis agent of mouse pneumonitis (MoPn) at least partly by activating the interferon-gamma (IFN-gamma)-inducible nitric oxide synthase (iNOS) pathway. To investigate whether nitric oxide played a role in controlling chlamydial infection in vivo, the protective capacity of a chlamydial-specific T-cell clone (clone 2.14-0) was analysed in mice in the presence of a specific inhibitor of iNOS. The results revealed that the ability of this clone to clear Chlamydia in vivo is in part mediated by induction of nitric oxide (NO) production. The L-arginine analogue and iNOS inhibitor, NG-monomethyl-L-arginine monoacetate (MLA), increased the chlamydial burden in infected mice and inhibited the ability of clone 2.14-0 to clear genital MoPn infection in vivo. The results are consistent with the working hypothesis that the IFN-gamma-inducible iNOS pathway is involved in the control of Chlamydia by T lymphocytes in mice.
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PMID:Molecular mechanism of T-cell control of Chlamydia in mice: role of nitric oxide in vivo. 870 33

Intranasal Herpes simplex virus type 1 (HSV-1) infection of mice caused pneumonia. Manifestations of the disease included: histological pneumonitis, pulmonary influx of lymphocytes, decreased pulmonary compliance, and decreased survival. Immunohistochemical staining demonstrated iNOS induction and the nitrotyrosine antigen in the lungs of infected, but not uninfected mice, suggesting that nitric oxide contributes to the development of pneumonia. To elucidate the role of nitric oxide in the pathogenesis of HSV-1 pneumonia, infected mice were treated either with the inhibitor of nitric oxide synthase activity, N(G)-monomethyl-L-arginine (L-NMMA), or, as a control, with PBS or D-NMMA. L-NMMA treatment decreased the histological evidence of pneumonia and reduced the bronchoalveolar lavage lymphocyte number to one-quarter of the total measured in control-treated mice. L-NMMA treatment significantly improved survival and pulmonary compliance of HSV-1-infected mice. Strikingly, the L-NMMA-mediated suppression of pneumonia occurred despite the presence of a 17-fold higher pulmonary viral titer. Taken together, these data demonstrated a previously unrecognized role of nitric oxide in HSV-1-induced pneumonia. Of note, suppression of pneumonia occurred despite higher pulmonary virus content; therefore, our data suggest that HSV-1 pneumonia is due to aspects of the inflammatory response rather than to direct viral cytopathic effects.
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PMID:Suppression of herpes simplex virus type 1 (HSV-1)-induced pneumonia in mice by inhibition of inducible nitric oxide synthase (iNOS, NOS2). 915 90

Mycoplasma pneumoniae is a leading cause of pneumonia and exacerbates other respiratory diseases in humans. We investigated the potential role of surfactant protein (SP) A in antimycoplasmal defense using alveolar macrophages (AMs) from C57BL/6NCr (C57BL) mice, which are highly resistant to infections of Mycoplasma pulmonis. C57BL AMs, activated with interferon (IFN)-gamma and incubated with SP-A (25 micrograms/ml) at 37 degrees C, produced significant amounts of nitric oxide (.NO; nitrate and nitrite production = 1.1 microM.h-1.10(5) AMs-1) and effected an 83% decrease in mycoplasma colony-forming units (CFUs) by 6 h postinfection. Preincubation of AMs with the inducible nitric oxide synthase inhibitor NG-monomethyl-L-arginine abolished .NO production and SP-A-mediated killing of mycoplasmas. No decrease in CFUs was seen when IFN-gamma-activated macrophages were infected with mycoplasmas in the absence of SP-A despite significant .NO production (nitrate and nitrite production = 0.6 microM.h-1.10(5) AMs-1). These results demonstrate that SP-A mediates killing of mycoplasmas by AMs, possibly through an .NO-dependent mechanism.
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PMID:Surfactant protein A mediates mycoplasmacidal activity of alveolar macrophages. 948 13

TNF-alpha exerts its biologic activity through two distinct receptors, TNF receptor type 1 (TNFR1, p55) and TNF receptor type 2 (TNFR2, p75). To analyze their function in toxoplasmosis, we orally infected mice genetically deficient for TNFR1 (TNFR1(0/0)), TNFR2 (TNFR2(0/0)), or both TNF receptors (TNFR1/2(0/0)), as well as wild-type (wt) mice with a low-virulent strain of Toxoplasma gondii. TNFR1/2(0/0) and TNFR1(0/0) mice succumbed to toxoplasmosis within 17 and 27 days, respectively, whereas TNFR2(0/0) and wt mice were equally resistant to acute toxoplasmosis. Histopathology attributed death of TNFR1/2(0/0) and TNFR1(0/0) mice to a fulminant necrotizing encephalitis. In addition, pneumonia contributed to the fatal outcome. The poor prognosis of TNFR1/2(0/0) and TNFR1(0/0) mice was reflected by a significantly increased parasitic load in the brain and lung as compared with TNFR2(0/0) and wt mice. Immunohistochemistry demonstrated a remarkable reduction of inducible nitric oxide synthase protein in brain and lung of TNFR1/2(0/0) and TNFR1(0/0) as compared with TNFR2(0/0) and wt mice. Reverse-transcribed PCR showed that in contrast to TNFR2(0/0) and wt mice, TNFR1(0/0) mice were unable to up-regulate inducible nitric oxide synthase mRNA transcripts in the course of infection, whereas intracerebral levels of IFN-gamma, TNF-alpha, and IL-1beta mRNA transcripts, recruitment of immune cells to the brain, and the amount of apoptotic cells in inflammatory foci did not differ significantly among the various experimental groups. These results illustrate that in Toxoplasma encephalitis, TNF-alpha-mediated immune responses are of crucial importance and that signaling through TNFR1, but not TNFR2, provides the stimulus required for the induction of protective nitric oxide.
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PMID:Crucial role of TNF receptor type 1 (p55), but not of TNF receptor type 2 (p75), in murine toxoplasmosis. 953 3

The expression of inducible nitric oxide synthase (iNOS), major histocompatibility class II molecules (MHC-II), CD68, and the calcium-binding proteins S100A8 and S100A9 (also called MRP8 and MRP14, respectively) was assessed in lung tissues from cattle that succumbed to pneumonia. Expression patterns of these markers were related to the types of lung lesion. iNOS expression was only observed in lungs infected with Arcanobacterium pyogenes or Pasteurella haemolytica but not in lungs from cattle with subacute chronic interstitial pneumonia and acute interstitial pneumonia due to Escherichia coli infection. High levels of iNOS were expressed by cells (probably leukocytes) surrounding necrotic foci. Occasionally, iNOS was expressed by intraalveolar macrophages in viable parenchyma, by leukocytes within the airways, and by some chondrocytes in the supporting cartilage of bronchi. Cells expressing MHC-II were distributed relatively evenly throughout areas of inflammation and did not display any clear association with necrotic foci. Cell types expressing MHC-II included type II alveolar epithelial cells, spindle-shaped cells of the interstitium, cells in bronchus-associated lymphoid tissue, and leukocytes in lymph and blood vessels but largely excluded iNOS-positive cells. Likewise, CD68-positive cells were rarely positive for iNOS and were not confined to the areas surrounding necrotic tissue. As with MHC-II and CD68, there was little if any coexpression of iNOS and either of the S100 proteins tested. Thus, in cattle with necrotizing bronchopneumonia, iNOS-expressing cells were largely restricted to the cellular zone surrounding necrotic areas.
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PMID:Expression of inducible nitric oxide synthase in spontaneous bovine bronchopneumonia. 1049 Feb 7

Fungal pathogens are notorious for causing chronic and latent infections, but the mechanism by which they evade the immune response is poorly understood. A major limitation in the study of chronic fungal infection has been the lack of suitable animal models where the infection is controlled and yet persists. Pulmonary Cryptococcus neoformans infection in rats results in a diffuse pneumonitis that resolves without dissemination or scarring except for the persistence of interstitial and subpleural granulomas that harbor viable cryptococci inside macrophages and epithelioid cells. Infected rats are asymptomatic but remain infected for as long as 18 months after inoculation with C. neoformans. Containment of infection is associated with granuloma formation that can be partially abrogated by glucocorticoid administration. Using this model, we identified several features associated with persistent infection in the rat lung, including (i) localization of C. neoformans to discrete, well-organized granulomas; (ii) intracellular persistence of C. neoformans within macrophages and epithelioid cells; (iii) reduced inducible nitric oxide synthase expression by granulomas harboring C. neoformans; and (iv) reduced antibody responses to cryptococcal polysaccharide. The results show that maintenance of persistent infection is associated with downregulation of both cellular and humoral immune responses.
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PMID:Persistent Cryptococcus neoformans pulmonary infection in the rat is associated with intracellular parasitism, decreased inducible nitric oxide synthase expression, and altered antibody responsiveness to cryptococcal polysaccharide. 1063 53

Tumour necrosis factor-alpha (TNF) plays a central role in the recruitment and activation of mononuclear cells in mycobacterial infection. In the absence of type 1 TNF receptor, Mycobacterium bovis Bacillus Calmette-Guerin (BCG) infection of mice is not contained, leading to fatal disease. Because type 1 TNF receptor binds both TNF and lymphotoxin-a, we used TNF-deficient mice to determine the specific role of TNF in the host resistance to BCG infection. The bacterial burden of the lungs of TNF-deficient mice was substantially increased and the mice succumbed to pneumonia between 8 and 12 weeks with a defective granuloma response. Atypical granulomas developed by 4 weeks expressing low levels of MHC class II, intracellular adhesion molecule (ICAM-1), CD11b and CD11c. Macrophages showed little signs of activation and had low levels of acid phosphatase activity and inducible nitric oxide synthase (INOS) expression. Despite the defective cellular recruitment, the chemokines, monocyte chemoattractant protein-1 (MCP-1) and macrophage inflammatory protein-1 (MIP-1alpha), were increased in broncho-alveolar lavage fluid of TNF-deficient mice. The defective host response was corrected by the transplantation of normal bone marrow cells into irradiated TNF-deficient mice. These results demonstrate that TNF derived from hemopoietic cells rather than from mesenchymal origin are essential for a normal host response to BCG infection. Furthermore, TNF dependent expression of adhesion molecules may be essential for the recruitment of mononuclear cells for the formation of bactericidal BCG granulomas.
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PMID:Correction of defective host response to Mycobacterium bovis BCG infection in TNF-deficient mice by bone marrow transplantation. 1087 41

Because inflammation stimulates the expression of inducible nitric oxide (NO) synthase (iNOS) with an associated increased local NO production, we hypothesized that patients with pneumonia would have increased excretion of NO into their airways. To test this hypothesis, NO was measured in the exhaled air and from the nasal cavities of 49 consecutively intubated and mechanically ventilated patients in our ICU. After excluding NO gas contamination in the inspiratory circuit, nasal NO and end-expiratory and mean exhaled tracheal NO levels and plasma nitrate concentrations were measured using a fast response chemiluminescence analyzer. Twenty-one patients (43%) presented with infectious pneumonia. End- expiratory exhaled NO concentrations were significantly higher in patients with pneumonia as compared with patients without pneumonia (5.9 +/- 1 ppb versus 3.2 +/- 0.5 ppb, p < 0.01). Similarly, mean nasal NO was higher in patients with pneumonia (1039 +/- 138 ppb versus 367 +/- 58 ppb, p = 0.003). Plasma nitrate levels did not differ between patient groups. Threshold values of tracheal or nasal NO were defined and subsequently validated in 60 other patients. Positive and negative values of a maximal tracheal level > 5 ppb for pneumonia were 74% and 89%, respectively. Thus tracheal and nasal NO levels may be of help in distinguishing patients with acute pneumonia from other causes. Furthermore, because these differences in airway NO levels were not paralleled in blood nitrite concentrations, we conclude that pneumonia per se is not associated with systemic NO production.
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PMID:Exhaled and nasal nitric oxide as a marker of pneumonia in ventilated patients. 1131 50

Nitric oxide (NO) is a relevant antimycobacterial factor in mouse macrophages. NO is a product of inducible nitric oxide synthase (iNOS). NO toxicity is greatly enhanced by reacting with superoxide to form peroxynitrite that reacts with many biological molecules. Tyrosine is one of the molecules with which NO reacts and the product is nitrotyrosine (NT). The production of peroxynitrite and the nitrosylation of proteins might play a role in bacterial killing and also in mediating host injury. In this study, we used a well-characterized mouse model of pulmonary tuberculosis to examine the local kinetics of expression and cellular distribution of iNOS and NT at the cellular and subcellular level. The histopathological study showed two phases of the disease: early and late. The early phase was characterized by mononuclear inflammation and granuloma formation. During this phase, high percentages of activated macrophages were observed that were immunostained for iNOS and NT. Immuno-electronmicroscopy showed NT immunoreactivity in lysosomes and mycobacterial wall and cytoplasm. The concentration of iNOS mRNA and NO metabolites were also elevated. The late phase was characterized by progressive pneumonia with focal necrosis and a decrease of iNOS mRNA and NO metabolites. The strongest NT immunostained areas were the necrotic tissue. Macrophages became foamy cells with scarce iNOS immunostaining but strong NT immunoreactivity. At the ultrastructural level, these cells showed NT immunolabeling in cytoskeleton, mitochondria, lysosomes and cell membrane. NT was also located in bronchial epithelial cell mitochondria, in cell membranes and cytoplasm of endothelial cells and in actin bundles within smooth muscle cells. These results suggest an important role of NO in mycobacterial killing, particularly during the early phase of the infection. They also suggest an important participation by NO in tissue damage during the late phase of the disease.
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PMID:Expression of inducible nitric oxide synthase and nitrotyrosine during the evolution of experimental pulmonary tuberculosis. 1166 49

At 4 weeks after intraperitoneal (i.p.) injection of 0.2LD50 (50% lethal dose) of murine cytomegalovirus (MCMV) in adult BALB/c mice, productive virus and the viral DNA were detected only in the salivary glands, but not in the lungs. A single i.p. injection of anti-CD3 mAb to these mice provoked pulmonary lesions, which included a thickening of the interstitium and peribronchiolar areas, accompanied with a cellular infiltration in those areas. As a result, half of the mice died. In a histochemical analysis with anti-nitrotyrosine polyclonal Ab, bronchiolar epithelial cells were stained with this Ab, thus demonstrating that peroxynitrite, which was biochemically derived from nitric oxide (NO), injured those cells. Similarly, when T cells of iNOS+/+ mice, which had been infected with MCMV 4 weeks before, were activated by a single injection of anti-CD3 mAb, 37.5% of the mice died. Nitrotyrosine was also detected in the bronchiolar epithelial cells in these mice. In contrast, none of MCMV-infected iNOS-/- mice died after the anti-CD3 injection. No pathological changes were noted in the histological findings of the lungs of those mice. An intranasal injection of bacterial superantigen, staphylococcal enterotoxin B (SEB), demonstrated the same histopathological changes in the lungs and mortality in BALB/c mice as those in mice i.p. injected with anti-CD3. Therefore, T-cell responsiveness to stimulation with anti-CD3 or a superantigen was presumably modified by MCMV infection. MCMV-associated pneumonitis in the present study was thus mediated not by a direct viral attack but by iNOS-derived NO, which can be induced by the cytokines from the T cells. In addition, it was demonstrated that the NO produced by the cytokine-mediated pathway targeted bronchiolar epithelial cells.
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PMID:Nitric oxide targets bronchiolar epithelial cells in murine cytomegalovirus-associated disease in lungs that are free of the virus. 1167 13


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