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)

Four pairs of virulent/avirulent strains of Legionella pneumophila were examined for their adherence/uptake and activation of human monocytes. Oxidative metabolic responses of monocytes were quantitated by measuring intracellular hydrogen peroxide generation using flow cytometry and by assessment of superoxide dismutase-inhibitable superoxide anion generation. All L. pneumophila strains induced less of a response than did Escherichia coli. Within each pair of isolates, virulent strains of L. pneumophila stimulated the oxidative response of monocytes less than avirulent variants. To determine effects of complement fixation by each strain on their adherence to monocytes, a phagocytic index (PI) was determined under various conditions. In autologous donor serum (AS), all L. pneumophila strains had a PI in the range of 2.1-3.1 bacteria per monocyte, with E. coli having a PI of 9.1. No significant differences were observed between virulent L. pneumophila strains and their avirulent variants. In the presence of heat-inactivated AS, all PI fell to 0.13-0.20 for the L. pneumophila strains, and to 2.16 for E. coli. Using heat-inactivated AS reconstituted with exogenous human complement as a source of opsonization, levels of PI were indistinguishable from their respective levels in AS. This suggests that complement fixation plays an important role in the adherence of virulent and avirulent L. pneumophila to human monocytes.
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PMID:Interactions of virulent and avirulent Legionella pneumophila with human monocytes. 215 38

Keto acids and reduced-oxygen-scavenging enzymes were examined for their roles in supporting the growth of Legionella species and for their potential reactions between the chemical components of the media. When grown in an experimental ACES (2-[(2-amino-2-oxoethyl)-amino] ethanesulfonic acid)-buffered chemically defined (ABCD) broth, the presence of keto acids shortened the lag periods, increased the rates of growth, and gave maximum cell yields. In addition, keto acids affected the specific activities of reduced-oxygen-scavenging enzymes determined during growth. The specific activities of superoxide dismutase of Legionella pneumophila (Knoxville) and L. dumoffii (TEX-KL) were increased three- to eightfold, while that of L. bozemanii (WIGA) was not affected. All strains appeared to be equally sensitive to the effects of superoxide anion (O2-) generated by light-activated riboflavin, and all were equally protected by the presence of keto acids in the ABCD broth. Production of trace amounts of acetate and succinate in pyruvate- and alpha-ketoglutarate-containing media exposed to light suggested that hydrogen peroxide was formed. Pyruvate and alpha-ketoglutarate were products of growth on amino acids, and there was no quantitative evidence that these keto acids were metabolized when they were added to the medium. The rate of cysteine oxidation in ABCD broth was increased by the presence of ferric ion or by exposure to light or by both, and keto acids reduced the rate of this oxidation. ACES buffer was a substrate for the production of O2- in the presence of light, and the combined addition of Fe2+ ions, cysteine, and either keto acid to the medium strongly inhibited the production of O2-. Thus, keto acids inhibited the rate of cysteine oxidation, they stimulated rapid growth by an unknown process, and, in combination with added Fe2+ ions and cysteine, they reversed the toxic effects of light by inhibiting O2- production.
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PMID:Role of keto acids and reduced-oxygen-scavenging enzymes in the growth of Legionella species. 300 29

We examined the ability of two recombinant human cytokines, granulocyte-macrophage colony-stimulating factor (rHu-GM-CSF) and interferon-gamma (rHu-IFN-gamma) to activate antibacterial mechanisms in human pulmonary macrophages (PM) and peripheral blood monocytes (PBM). Growth of Legionella pneumophila (LP) was assessed in PM or PBM which had been exposed to either rHu-IFN-gamma (500-1000 u/ml) or rHu-GM-CSF (1 to 10,000 u/ml). In both PM and PBM exposed to 500 u/ml rHu-IFN-gamma, growth of LP was reduced compared to cells exposed to media alone. By comparison, exposure of these cell types to rHu-GM-CSF had no detectable effect on bacterial replication. In order to investigate potential mechanisms accounting for this observation, the effect of these cytokines on the hydrogen peroxide (H2O2)-releasing capacity of cells was studied. Exposure of PM and PBM to rHu-IFN-gamma (500 to 1000 u/ml) resulted in increased production of H2O2 triggered by phorbol myristate acetate; when subjected to the same experimental conditions, rHu-GM-CSF-exposed cells exhibited no increase in H2O2 production. To further clarify the role of rHu-IFN-gamma-induced augmentation of oxidative metabolism on cellular inhibition of bacterial growth, an amount of catalase capable of completely neutralizing extracellular H2O2 was added to cells before and during infection. This did not abrogate the antibacterial activity of rHu-IFN-gamma. These studies demonstrate that rHu-IFN-gamma but not rHu-GM-CSF is capable of augmenting the capacity of PM and PBM to restrict LP growth. These data suggest that the antibacterial activity of rHu-IFN-gamma in this system may involve oxidative as well as nonoxidative mechanisms.
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PMID:Cytokine activation of antibacterial activity in human pulmonary macrophages: comparison of recombinant interferon-gamma and granulocyte-macrophage colony-stimulating factor. 314 84

A study was conducted to determine the bactericidal effects of ozone and hydrogen peroxide relative to that of free chlorine on Legionella pneumophila serogroup 1. In laboratory batch-type experiments, organisms seeded at various densities were exposed to different concentrations of these biocides in demand-free buffers. Bactericidal effects were measured by determining the ability of L. pneumophila to grow on buffered charcoal-yeast extract agar supplemented with alpha-ketoglutarate. Ozone was the most potent of the three biocides, with a greater than 99% kill of L. pneumophila occurring during a 5-min exposure to 0.10 to 0.30 micrograms of O3 per ml. The bactericidal action of O3 was not markedly affected by changes in pH or temperature. Concentrations of 0.30 and 0.40 micrograms of free chlorine per ml killed 99% of the L. pneumophila after 30- and 5-min exposures, respectively. A 30-min exposure to 1,000 micrograms of H2O2 per ml was required to effect a 99% reduction of the viable L. pneumophila population. However, no viable L. pneumophila could be detected after a 24-h exposure to 100 or 300 micrograms of H2O2 per ml. Attempts were made to correlate the biocidal effects of O3 and H2O2 with the oxidation of L. pneumophila fatty acids. These tests indicated that certain biocidal concentrations of O3 and H2O2 resulted in a loss or severe reduction of L. pneumophila unsaturated fatty acids.
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PMID:Effects of three oxidizing biocides on Legionella pneumophila serogroup 1. 337 92

The difficulties associated with the growth of Legionella species in common laboratory media may be due to the sensitivity of these organisms to low levels of hydrogen peroxide and superoxide radicals. Exposure of yeast extract (YE) broth to fluorescent light generated superoxide radicals (3 microM/h) and hydrogen peroxide (16 microM/h). Autoclaved YE medium was more prone to photochemical oxidation than YE medium sterilized by filtration. Activated charcoals and, to a lesser extent, graphite, but not starch, prevented photochemical oxidation of YE medium, decomposed hydrogen peroxide and superoxide radicals, and prevented light-accelerated autooxidation of cysteine. Also, suspensions of charcoal in phosphate buffer and in charcoal yeast extract medium readily decomposed exogenous peroxide (17 and 23 nmol/ml per min, respectively). Combinations of bovine superoxide dismutase and catalase also decreased the rate of photooxidation of YE medium. Medium protected from light did not accumulate appreciable levels of hydrogen peroxide, and autoclaved YE medium protected from light supported good growth of Legionella micdadei. Various species of Legionella (10(4) cells per ml) exhibited sensitivity to relatively low levels of hydrogen peroxide (26.5 microM) in challenge experiments. The level of hydrogen peroxide that accumulated in YE medium over a period of several hours (greater than 50 microM) was in excess of the level tolerated by Legionella pneumophila, which contained no measurable catalase activity. Strains of L. micdadei, Legionella dumoffi, and Legionella bozmanii contained this enzyme, but the presence of catalase did not appear to confer appreciable tolerance to exogenously generated hydrogen peroxide.
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PMID:Production of superoxide and hydrogen peroxide in medium used to culture Legionella pneumophila: catalytic decomposition by charcoal. 630 19

We studied the interaction between Legionella pneumophila, which is principally a pulmonary pathogen, with primate alveolar macrophages (AM), which are the primary pulmonary cellular defense mechanism. For these studies we used L. pneumophila, type I, which were grown in albumin-yeast extract broth, were greater than 80% viable, and were comparable in virulence for guinea pigs to organisms from guinea pig spleen homogenates. For comparison, avirulent agar-passed L. pneumophila, type I, and a strain of Escherichia coli were also used. In the absence of detectable antibody, AM phagocytosed similar numbers of virulent and avirulent Legionella and killed the majority of ingested Legionella in 15-30 min, as determined by two different assays. The virulent and avirulent Legionella appeared to be equally susceptible to the cidal systems of the AM and both were killed more readily than were E. coli under both assay conditions. Phagocytosis of Legionella by AM was associated with a localized respiratory burst, as indicated by nitroblue tetrazolium reduction around ingested organisms. Killing of AM-associated Legionella was inhibited by the hydroxyl radical (OH.) scavenger mannitol (but not by an equiosmolar concentration of sodium sulfate), and by a combination of superoxide dismutase and catalase (but not by either enzyme alone). These findings suggest a contribution by OH., one generated by the metal-catalyzed interaction of superoxide and hydrogen peroxide (Haber-Weiss reaction) in the anti-Legionella activity of AM. The virulent Legionella that survived intracellularly increased in number from 4 X 10(4) at 1 h to 6 X 10(6) at 96 h after infection. In contrast, avirulent Legionella replicated more slowly, increasing in number from 4 X 10(4) to 1 X 10(5) over the same period. Replication of virulent Legionella destroyed the AM monolayers by 120 h, whereas monolayers containing avirulent organisms remained intact. Thus, virulence of Legionella appears not to correlate with its ability to survive early killing by AM, but rather with the ability of the small fraction of surviving organisms to replicate within these cells.
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PMID:Interaction of primate alveolar macrophages and Legionella pneumophila. 637 25

A newly identified gene in Escherichia coli, fkpA, encodes a protein with extensive similarity to the macrophage infectivity potentiator (Mip) proteins of Legionella pneumophila and Chlamydia trachomatis. The FkpA protein may be a new member of the family of FK506-binding proteins (FKBPs) because its carboxyl domain includes a sequence that matches the consensus FK506-binding motif in 40 of 48 positions, including those amino acids at the active site that form hydrogen bonds with the drug FK506. The amino acid sequence of the 29 kDa FkpA protein is 30-35% identical to the Mip proteins of L. pneumophila, L. micdadei, and C. trachomatis. Of the 270 amino acids of FkpA, 113 (42%) are identical to the sequence of one or another of these Mip proteins. Overexpression of FkpA or deletion of fkpA from the E. coli chromosome had no detrimental effect on bacterial growth, indicating that fkpA is not an essential gene. Hybridization of fkpA-specific DNA probes to genomic blots revealed that similar genes exist in several representatives of the Enterobacteriaceae. Thus, mip-like genes are not found exclusively in bacteria having a predominately intracellular life style, but instead appear to be a new FKBP subfamily that is a common constituent of many bacteria.
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PMID:Escherichia coli and other species of the Enterobacteriaceae encode a protein similar to the family of Mip-like FK506-binding proteins. 754 Aug 28

Legionella pneumophila, the causative organism of Legionnaires' pneumonia, is spread by aerosolization from man-made reservoirs, e.g. , water cooling towers and air conditioning ducts, whose nutrient-poor conditions are conducive to entrance into stationary phase. Exposure to starvation conditions is known to induce several virulence traits in L. pneumophila. Since catalase-peroxidases have been extremely useful markers of the stationary-phase response in many bacterial species and may be an avenue for identifying virulence genes in L. pneumophila, an investigation of these enzymes was initiated. L. pneumophila was shown to contain two bifunctional catalase-peroxidases and to lack monofunctional catalase and peroxidase. The gene encoding the KatB catalase-peroxidase was cloned and sequenced, and lacZ fusion and null mutant strains were constructed. Null mutants in katB are delayed in the infection and lysis of cultured macrophage-like cell lines. KatB is similar to the KatG catalase-peroxidase of Escherichia coli in its 20-fold induction during exponential growth and in playing a role in resistance to hydrogen peroxide. Analysis of the changes in katB expression and in the total catalase and peroxidase activity during growth indicates that the 8- to 10-fold induction of peroxidase activity that occurs in stationary phase is attributable to KatA, the second L. pneumophila catalase-peroxidase.
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PMID:Legionella pneumophila catalase-peroxidases: cloning of the katB gene and studies of KatB function. 976 68

Legionella pneumophila, the causative organism of Legionnaires' pneumonia, contains two enzymes with catalatic and peroxidatic activity, KatA and KatB. To address the issue of redundant, overlapping, or discrete in vivo functions of highly homologous catalase-peroxidases, the gene for katA was cloned and its function was studied in L. pneumophila and Escherichia coli and compared with prior studies of katB in this laboratory. katA is induced during exponential growth and is the predominant peroxidase in stationary phase. When katA is inactivated, L. pneumophila is more sensitive to exogenous hydrogen peroxide and less virulent in the THP-1 macrophage cell line, similar to katB. Catalatic-peroxidatic activity with different peroxidatic cosubstrates is comparable for KatA and KatB, but KatA is five times more active towards dianisidine. In contrast with these examples of redundant or overlapping function, stationary-phase survival is decreased by 100- to 10,000-fold when katA is inactivated, while no change from wild type is seen for the katB null. The principal clue for understanding this discrete in vivo function was the demonstration that KatA is periplasmic and KatB is cytosolic. This stationary-phase phenotype suggests that targets sensitive to hydrogen peroxide are present outside the cytosol in stationary phase or that the peroxidatic activity of KatA is critical for stationary-phase redox reactions in the periplasm, perhaps disulfide bond formation. Since starvation-induced stationary phase is a prerequisite to acquisition of virulence by L. pneumophila, further studies on the function and regulation of katA in stationary phase may give insights on the mechanisms of infectivity of this pathogen.
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PMID:Catalase-peroxidases of Legionella pneumophila: cloning of the katA gene and studies of KatA function. 1107 12

The use of human recombinant CuZn superoxide dismutase (rhSOD) in addition to exogenous surfactant has been studied as a therapeutic strategy to prevent acute and chronic lung injury in premature infants with blood monocytes (MO). However, scavenging of superoxide by rhSOD may compromise bacterial killing by phagocytes. In the present study, we investigated the interaction of exogenous surfactant and rhSOD with the antibacterial activity of human blood MO. MO were preincubated in the presence or absence of: (1) modified natural surfactant (Curosurf); 1 mg/ml); (2) rhSOD (2,500 U/ml) and (3) bovine catalase (25,000 U/ml). Bacteria (Legionella pneumophila or Escherichia coli) were then added and incubated for 6 h. Viable bacteria were determined by counting colony-forming units. The ability of the MO to generate superoxide anions (O2-) in response to bacterial infection was also investigated. The antibacterial capacity of MO was not impaired by the presence of rhSOD either alone or combined with Curosurf. In some instances, bactericidal activity was even potentiated by the addition of rhSOD. Exposure of MO to catalase interfered with the increased bacterial killing of MO and rhSOD, suggesting that hydrogen peroxide (H2O2) production was critically important in the process of bacterial killing. Both bacterial species were also found to induce the generation of intra- and extracellular O2- by MO. Data indicate that rhSOD potentiates the killing of bacteria by human MO. The mechanism of action appears to be related to the ability of bacteria to induce the generation of O2-, which in turn is converted to H2O2 in the presence of rhSOD. This has important implications in the development of therapeutic intervention strategies using antioxidant therapy in premature infants with respiratory distress syndrome.
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PMID:Effects of exogenous surfactant and recombinant human copper-zinc superoxide dismutase on oxygen-dependent antimicrobial defenses. 1216 31


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