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:C0023241 (Legionella)
6,990 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The in vivo role of endogenous tumor necrosis factor alpha (TNF-alpha) and reactive nitrogen intermediates (RNIs) in modulation of growth of Legionella pneumophila in the lung was assessed using a murine model of replicative L. pneumophila lung infection. Intratracheal inoculation of mice with L. pneumophila resulted in induction of endogenous TNF-alpha, which preceded clearance of L. pneumophila from the lung. Inhibition of endogenous TNF-alpha activity, via in vivo administration of TNF-alpha neutralizing antibody, or inhibition of endogenous RNIs, via administration of the nitric oxide (NO) synthetase inhibitor N-monomethyl-L-arginine (NMMA), resulted in enhanced growth of L. pneumophila in the lung at > or = 3 days postinfection (when compared with untreated L. pneumophila-infected mice). Because of the similar kinetics of enhanced pulmonary growth of L. pneumophila in mice treated in vivo with either anti-TNF-alpha antibody or NMMA, the immunomodulatory effect of NO on endogenous TNF-alpha activity in the lung was assessed. Administration of NMMA to L. pneumophila-infected mice resulted in a significant decrease in endogenous TNF-alpha activity in the lung during replicative L. pneumophila infections in vivo. However, administration of exogenous TNF-alpha to NMMA-treated mice failed to significantly enhance clearance of L. pneumophila from the lung. Results of these studies indicate that both endogenous NO and TNF-alpha facilitate resolution of replicative L. pneumophila lung infections and that regulation of L. pneumophila replication by TNF-alpha is mediated, at least in part, by NO.
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PMID:In vivo regulation of replicative Legionella pneumophila lung infection by endogenous tumor necrosis factor alpha and nitric oxide. 764 53

Cytokine production in macrophages infected by bacteria is critical for the course of infection. However, it is not known how infection of macrophages with opportunistic bacteria leads to cytokine production in different populations of cells. Since it is possible that cytokine genes may be differentially regulated by attachment rather than by active infection, the levels of various cytokine mRNAs were measured in alveolar macrophages (AMs), peritoneal resident macrophages (RMs), and peritoneally elicited macrophages (EMs) interacting with Legionella pneumophila by using cytochalasin D-treated macrophages and a newly developed quantitative reverse transcription-PCR procedure with high-performance liquid chromatographic analysis to determine cytokine mRNA formation. Increased levels of interleukin-1 beta (IL-1 beta), IL-6, tumor necrosis factor alpha, granulocyte-macrophage colony-stimulating factor, and macrophage inflammatory protein 2 mRNAs were quantitated in the macrophages responding to L. pneumophila attachment in vitro. Using this technique, we showed that the three different macrophage populations responded differently to bacterial attachment. We found that the levels of IL-6 and granulocyte-macrophage colony-stimulating factor mRNAs induced by the attachment of L. pneumophila to AMs were significantly lower than the levels in RMs but similar to the levels in EMs. Furthermore, the levels of MIP-2 mRNA in the AMs were found to be higher than those in the RMs, but similar levels were found in EMs. IL-1 beta mRNA levels were higher in both AMs and RMs than in EMs, but tumor necrosis factor alpha levels were not different among the three macrophage populations examined. Thus, the responses of macrophages to bacterial attachment in terms of cytokine mRNA levels were readily quantitated by the reverse transcription-PCR assay. However, the results obtained showed different levels of responsiveness of distinct macrophage populations to L. pneumophila attachment, and this could be related to the characteristic nature of the macrophage type examined.
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PMID:Quantitative reverse transcription-PCR analysis of Legionella pneumophila-induced cytokine mRNA in different macrophage populations by high-performance liquid chromatography. 771 7

Bacterial heat shock proteins (hsp) have been shown to be important immunogens stimulating both T cells and B cells. However, little is known concerning the direct interactions between hsp and macrophages. In this study, we demonstrated that treatment of macrophage cultures with purified bacterial hsp, including Legionella pneumophila hsp60, Escherichia coli GroEL, Mycobacterium tuberculosis hsp70, Mycobacterium leprae hsp65, and Mycobacterium bovis BCG hsp65, increased the steady-state levels of cytokine mRNA for interleukin-1 alpha (IL-1 alpha), IL-1 beta, IL-6, tumor necrosis factor alpha, and granulocyte-macrophage colony-stimulating factor as well as supernatant IL-1 secretion. This effect was shown not to be due to contamination of the hsp preparations with bacterial lipopolysaccharide. However, not all hsp induced cytokines; M. tuberculosis hsp10 showed minimal activity in our study. These results suggest that bacterial hsp might modulate immunity by rapidly and directly increasing cytokine production in macrophages.
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PMID:Bacterial heat shock proteins directly induce cytokine mRNA and interleukin-1 secretion in macrophage cultures. 796 Jan 55

Infection of macrophages with Legionella pneumophila induces formation of interleukin 1 beta (IL-1 beta), but the molecular basis of this is not understood. Binding of bacteria to macrophage surfaces is the first step in an infection process. Therefore, we examined whether this step was sufficient to increase the cellular level of mRNAs for IL-1 beta and other cytokines. To assess the effect of binding of L. pneumophila on the steady-state levels of cytokine mRNAs, cultures of thioglycolate-elicited macrophages from L. pneumophila-susceptible A/J mice were treated with cytochalasin D and infected with L. pneumophila and the total RNA was extracted for analysis by reverse transcription-PCR with primers for IL-1 alpha, IL-1 beta, IL-6, tumor necrosis factor alpha, granulocyte macrophage colony-stimulating factor, and beta interferon (IFN-beta). L. pneumophila treatment increased the cellular steady-state mRNA levels of all cytokines except IFN-beta. To determine the specificity of this effect, macrophage cultures were treated with cytochalasin D and either bacterial lipopolysaccharide, bovine serum albumin-sensitized latex, Salmonella typhimurium, or Escherichia coli. Lipopolysaccharide treatment increased all mRNAs, bovine serum albumin-sensitized latex had no significant effect, and treatment with S. typhimurium or E. coli increased all mRNAs except that of IFN-beta. These results suggested that the binding of gram-negative bacteria to the macrophage surface was sufficient to induce a unique pattern of cytokine mRNAs. Additional studies that examined the characteristics of the bacterial ligands involved indicated involvement of both heat-labile and heat-stable surface ligands.
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PMID:Binding of Legionella pneumophila to macrophages increases cellular cytokine mRNA. 806 12

We investigated the role of tumor necrosis factor alpha (TNF-alpha) in human peripheral monocytes infected with Legionella pneumophila in vitro. Exogenous TNF-alpha significantly inhibited the intracellular multiplication of the bacterium. This effect was concentration and time dependent and was abrogated by anti-TNF antibodies. TNF-alpha levels in the culture supernatants were low but were enhanced by the addition of gamma interferon. When monocytes were cultured and infected in the presence of pentoxyphilline, a potent inhibitor of TNF-alpha synthesis, the intracellular bacterial growth was enhanced. The effect of pentoxyphilline was concentration and time dependent and was due to the inhibition of TNF-alpha production, as shown by Northern (RNA) blot hybridization of total RNA. In addition, the pentoxyphilline partially abolished the inhibitory effect of gamma interferon on bacterial intracellular multiplication. These results suggest that gamma interferon inhibits, at least partially, the intracellular multiplication of L. pneumophila by enhancing TNF-alpha synthesis.
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PMID:Involvement of tumor necrosis factor alpha in intracellular multiplication of Legionella pneumophila in human monocytes. 822 72

Macrophages can be activated by lipopolysaccharides (LPS) from gram-negative bacteria to evince a number of biological activities, including increased resistance to intracellular infection by opportunistic bacteria. In the present study, intraperitoneal injection of LPS into A/J mice activated peritoneal macrophages so that they resisted subsequent in vitro infection with Legionella pneumophila. Coculture of these macrophages with those from nontreated A/J mice converted the entire population of cells from permissive to nonpermissive. This effect did not appear to be mediated by soluble factors released from the LPS-treated macrophages, since the levels of interleukins-1 and -6 and tumor necrosis factor alpha produced by the macrophages were not found to be markedly elevated at the time when the macrophages from the LPS-treated mice were most effective in converting normal macrophages to nonpermissiveness. Furthermore, macrophages from mice injected intraperitoneally with either interferon or tumor necrosis factor alpha did not evince nonpermissiveness and also did not have the ability to convert normal spleen cells to nonpermissiveness. Polymyxin B, a known inactivator of LPS activity, did not inhibit the macrophages from the LPS-treated mice from inducing this resistance. It seemed unlikely that free LPS released from the macrophages mediated this effect. The results of this study thus showed that macrophages activated by LPS in vivo can evince nonpermissiveness for Legionella growth in vitro and also can induce macrophages from normal, permissive mice to become nonpermissive for Legionella growth in vitro.
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PMID:Legionella pneumophila growth restriction in permissive macrophages cocultured with nonpermissive lipopolysaccharide-activated macrophages. 822 82

Peritoneal exudate macrophages from A/J mice activated by purified lipid A preparations from Pseudomonas vesicularis, which contain 2,3-diamino-2,3-dideoxy-D-glucose disaccharide phosphomonoester as the lipid A backbone, restricted the growth of Legionella pneumophila, an intracellular opportunistic bacteria which readily grows in otherwise permissive macrophages from susceptible A/J mice and induced production of the proinflammatory cytokines interleukin 1 and tumor necrosis factor alpha. Activation of the macrophages was similar to that which occurred after stimulation with more conventional lipid A from other bacteria such as salmonellae. A purified fraction A3 preparation from the Pseudomonas lipid A, which lacked only 1 mol of amide-linked fatty acid, in comparison with another fraction (A2), which contained the fatty acid, also markedly activated the usually permissive macrophages from susceptible A/J mice to resist growth of the legionellae. The fraction A3 also induced both interleukin and tumor necrosis factor alpha. These results show that this novel lipid A from P. vesicularis can activate macrophages to resist infection with an opportunistic bacterium in a manner similar to that induced by conventional enterobacterial lipid A and that the hydrophobic portion of this Pseudomonas molecule may have an important role in activation of macrophages.
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PMID:Legionella pneumophila growth restriction and cytokine production by murine macrophages activated by a novel Pseudomonas lipid A. 830 Feb 34

The effect of inhaled amoebae on the pathogenesis of Legionnaires' disease was investigated in vivo. A/J mice, which are susceptible to replicative Legionella pneumophila infections, were inoculated intratracheally with L. pneumophila (10(6) bacteria per mouse) or were coinoculated with L. pneumophila (10(6) bacteria per mouse) and Hartmannella vermiformis (10(6) amoebae per mouse). The effect of coinoculation with H. vermiformis on bacterial clearance, histopathology, cellular recruitment into the lung, and intrapulmonary levels of cytokines including gamma interferon and tumor necrosis factor alpha was subsequently assessed. Coinoculation with H. vermiformis significantly enhanced intrapulmonary growth of L. pneumophila in A/J mice. Histopathologic and flow cytometric analysis of lung tissue demonstrated that while A/J mice inoculated with L. pneumophila alone develop multifocal pneumonitis which resolves with minimal mortality, mice coinoculated with H. vermiformis develop diffuse pneumonitis which is associated with diminished intrapulmonary recruitment of lymphocytes and mononuclear phagocytic cells and significant mortality. Furthermore, coinoculation of mice with H. vermiformis resulted in a fourfold enhancement in intrapulmonary levels of gamma interferon and tumor necrosis factor alpha compared with mice infected with L. pneumophila alone. The effect of H. vermiformis on intrapulmonary growth of L. pneumophila in a resistant host (i.e., BALB/c mice) was subsequently evaluated. While BALB/c mice do not develop replicative L. pneumophila infections following inoculation with L. pneumophila alone, there was an eightfold increase in intrapulmonary L. pneumophila in BALB/c mice coinoculated with H. vermiformis. These studies, demonstrating that intrapulmonary amoebae potentiate replicative L. pneumophila lung infection in both a susceptible and a resistant host, have significant implications with regard to the potential role of protozoa in the pathogenesis of pulmonary diseases due to inhaled pathogens and in the design of strategies to prevent and/or control legionellosis.
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PMID:Coinoculation with Hartmannella vermiformis enhances replicative Legionella pneumophila lung infection in a murine model of Legionnaires' disease. 869 66

Legionella pneumophila is an intracellular parasite of alveolar macrophages, and recovery from legionellosis is associated with activation of alveolar macrophages to resist intracellular bacterial replication. Gamma interferon (IFN-gamma) is known to activate alveolar macrophages to suppress L. pneumophila, but the role of macrophage-derived cytokines in modulating alveolar macrophage resistance is unknown. To test the hypothesis that macrophage-derived mediators contribute to the resistance of alveolar macrophages to L. pneumophila, we incubated adherent rat alveolar macrophages with Escherichia coli lipopolysaccharide (LPS), recombinant tumor necrosis factor alpha (TNF-alpha), recombinant IFN-gamma, neutralizing anti-TNF-alpha, and/or N(G)-monomethyl-L-arginine (L-NMMA) for 6 h before challenge with L. pneumophila. Monolayers were sonically disrupted and quantitatively cultured on successive days. We also measured bioactive TNF-alpha release by infected macrophages in the presence or absence of IFN-gamma. We found that pretreatment of alveolar macrophages with LPS or, to a lesser degree, TNF-alpha, significantly inhibited intracellular replication of L. pneumophila. Both LPS and TNF-alpha acted synergistically with IFN-gamma at less than the maximally activating concentration to suppress L. pneumophila growth. The independent and coactivating effects of LPS were blocked by anti-TNF-alpha. Killing of L. pneumophila by IFN-gamma at the maximally activating concentration was inhibited by anti-TNF-alpha. The synergistic effects of TNF-alpha. or LPS in combination with IFN-gamma were inhibited by L-NMMA. Infected alveolar macrophages secreted TNF-alpha in proportion to the bacterial inoculum, and secretion of TNF-alpha was potentiated by cocultivation with IFN-gamma. These data indicate that secretion of TNF-alpha is an important autocrine defense mechanism of alveolar macrophages, serving to potentiate the activating effects of IFN-gamma through costimulation of nitric oxide synthesis.
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PMID:Roles for tumor necrosis factor alpha and nitric oxide in resistance of rat alveolar macrophages to Legionella pneumophila. 875 59

Intracellular growth patterns of Legionella pneumophila were examined in monocytes obtained from carriers of human T-lymphotropic virus type I (HTLV-1) and controls who were HTLV-1 seronegative. All subjects were seronegative for antibodies against L. pneumophila. Bacterial growth was determined 0, 1, 2, and/or 3 days after infecting peripheral blood mononuclear cells (PBMCs) with the bacteria. The intracellular growth of L. pneumophila was markedly inhibited in HTLV-1 carriers compared with normal controls. When the lymphocytes were depleted from the HTLV-1 carrier PBMC cultures before infection, this inhibition was abolished. Inhibition reappeared, however, when the 72-h culture supernatants of PBMCs from HTLV-1 carriers were added to the lymphocyte-depleted cultures. Culture supernatants of infected and uninfected PBMCs from HTLV-1 carriers exhibited markedly increased levels of interferon-gamma (IFN-gamma) and tumor necrosis factor alpha (TNF-alpha) compared with the HTLV-1 seronegative controls. In the HTLV-1 carriers, IFN-gamma was produced by the CD4+ lymphocytes, whereas TNF-alpha was secreted by the monocytes. Addition of anti-IFN-gamma or anti-TNF-alpha antibodies to the HTLV-1 carrier PBMC cultures diminished the inhibition of intracellular growth of L. pneumophila. Results suggest that the monocytes are activated in HTLV-1 carriers. These findings may explain why an opportunistic infection by certain intracellular pathogens is rarely seen among HTLV-1 carriers.
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PMID:Marked inhibition of the intracellular multiplication of Legionella pneumophila in monocytes isolated from carriers of human T lymphotrophic virus type I. 902 17


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