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 extracellular metalloprotease of Legionella pneumophila, also called tissue-destructive protease or major secretory protein, has been proposed as one of the virulence factors of this organism. Considering the decisive role played by the phagocytic cells in host defense against Legionella infection, we investigated the effect of this protease on the function of human neutrophils and monocytes. L. pneumophila protease inhibited the chemotactic response of neutrophils to F-Met-Leu-Phe and zymosan-activated serum in a concentration-dependent and heat-labile manner. A direct effect of the protease on the chemotactic activity of neutrophils was demonstrated by the continued inhibition of neutrophil chemotaxis when the protease was removed following pre-incubation of the cells. In contrast, the enzyme had no effect on monocyte chemotaxis. The protease inhibited, also in a concentration-dependent and heat-labile manner, the binding of F-Met-Leu-Phe to both cell types. Neutrophil and monocyte oxidative burst response, as measured by superoxide release and chemiluminescence response, was not significantly affected by the enzyme. A slight enhancement of PMA-stimulated superoxide release was induced by the protease in both cell types. Lastly, the protease inhibited the killing of Listeria monocytogenes by neutrophils or monocytes. Inhibition of Listeria killing was concentration-dependent, heat-labile, and did not require the presence of the enzyme in the bactericidal assay. The inhibitory activity of L. pneumophila protease on neutrophil chemotaxis and on the listericidal activity of human neutrophils and monocytes demonstrated in this study provides evidence for a role of this enzyme in the pathogenesis of Legionnaires' disease.
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PMID:Effect of Legionella pneumophila cytotoxic protease on human neutrophil and monocyte function. 158 5

The sequence of the structural gene encoding the Legionella pneumophila extracellular zinc metalloprotease has been determined and was found to possess a single large open reading frame (ORF) of 1,629 nucleotides (nt). This ORF was preceded by consensus promoter (TTAACT . . . 17 nt . . . TATAAC) and ribosome-binding (TAAGGAG) sequences. The deduced polypeptide contained a putative signal sequence and a total of 543 amino acid residues with a computed molecular size of 60,775 daltons, substantially larger than the observed 38,000 daltons of the native and recombinant proteins. A homology search revealed extensive amino acid identity with Pseudomonas aeruginosa elastase, a protein that is also encoded by an ORF substantially larger than that predicted for the mature size of the protein. The structural identity between the L. pneumophila protease and P. aeruginosa elastase was most pronounced in the regions forming the enzymatic active site of elastase. Amino acid residues constituting the active-site cleft of elastase were greater than 75% conserved. Elastase residues that interact with and mediate proteolysis of substrate peptides were 100% conserved. Competitive inhibitors of elastase and the structurally and functionally related thermolysin (phosphoramidon and a phosphoramidate analog, Z-GlyP(O)Leu-Ala), were shown to be equally potent at inhibiting the proteolytic activity of the L. pneumophila protease. These inhibitor studies along with the amino acid sequence similarities provide strong evidence that the L. pneumophila protease and P. aeruginosa elastase share a similar molecular mechanism of proteolysis.
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PMID:Legionella pneumophila zinc metalloprotease is structurally and functionally homologous to Pseudomonas aeruginosa elastase. 211 Jan 46

We have previously reported that Legionella pneumophila antigens can induce interferon-gamma (IFN-gamma) and tumor necrosis factor (TNF) in vitro and in vivo in mice. Furthermore, treatment of murine polymorphonuclear leukocyte (PMN) cultures with these cytokines resulted in augmented killing of the bacteria in vitro. The purpose of the present study was to determine if these findings could be extended to human responses. Here we report that Legionella antigens induced IFN-gamma and TNF in nonimmune human leukocytes cultures, and that these cytokines were able to stimulate the bactericidal activity of isolated PMN against L. pneumophila in vitro. Furthermore, optimal production of IFN-gamma was found in cultures which were enriched for large granular lymphocytes (LGL). The phenotype of IFN-producing cells was determined to be CD11+, CD16+, CD2+, and negative for CD4, CD8, CD14, and Leu 7. Additionally, Legionella-infected monocytes were found to produce TNF in a dose-dependent response to the number of infecting bacteria, and the addition of recombinant IFN-gamma to infected monocytes resulted in augmented production of TNF in a synergistic manner. Finally, treatment of PMN with recombinant IFN-gamma and recombinant TNF augmented their bactericidal activity against Legionella in a dose-dependent response. Thus, cytokines which can be induced by L. pneumophila antigens are able to stimulate PMN function in vitro, suggesting that resistance to infection results from a complex interaction of cytokines and cell responses.
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PMID:Induction of interferon-gamma and tumor necrosis factor by Legionella pneumophila: augmentation of human neutrophil bactericidal activity. 249 51

The legionellae are facultative intracellular bacterial pathogens which multiply in host phagocytes. Legionella micdadei cells contain an acid phosphatase (ACP2) which blocks superoxide anion production by human neutrophils stimulated with formyl-Met-Leu-Phe (fMLP) [A. K. Saha, et al. (1985) Arch. Biochem. Biophys. 243, 150-160]. In the present study, we have purified the Legionella phosphatase to homogeneity as indicated by the finding of a single 68,000-Da band following sodium dodecyl sulfate-polyacrylamide gel electrophoresis. We explored the possibility that ACP2 acts by interfering with polyphosphoinositide hydrolysis and the production of the intracellular second messengers, inositol trisphosphate (IP3) and diacylglycerol, following neutrophil stimulation. Phosphatidylinositol 4,5-bisphosphate (PIP2) was hydrolyzed rapidly by ACP2 in vitro. The rate of hydrolysis of PIP2 was higher at pH 7.0 (Km 2.0 microM; 4 X 10(3) units/mg protein; 1 unit equals 1 nmol of Pi released/h) than at lower pH. IP3 was also a good substrate for ACP2 in vitro. When human neutrophil phosphoinositides were prelabeled with 32Pi, subsequent incubation with ACP2 resulted in an 85% loss of the labeled PIP2 over 2 h. Following fMLP stimulation of [3H]inositol-labeled neutrophils, the quantity of IP3 produced by ACP2-treated cells was reduced by 44%. Prior treatment of neutrophils with ACP2 also reduced by 45% the amount of diacylglycerol they produced when stimulated by fMLP. These results indicate that the Legionella phosphatase may compromise the neutrophils' microbicidal response to the organism by hydrolyzing PIP2, the progenitor of IP3 and diacylglycerol, and by hydrolyzing IP3 itself.
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PMID:Legionella micdadei phosphatase catalyzes the hydrolysis of phosphatidylinositol 4,5-bisphosphate in human neutrophils. 284 4

p-Nitroanilides of antranyloyltripeptides of the general structure Abz-Ala-Ala-P'1-pNA (P'1 = Phe, Leu, Ile, Val) containing intramolecularly quenched fluorescent groups (Abz is a fluorogenic group and pNA is a quencher of fluorescence) were prepared by combination of chemical and enzymatic methods. Thermolysin and metalloproteinases from Legionella pneumophila and Thermoactinomyces species were shown to hydrolyse Ala-P'1 bond of the peptides with simultaneous 4-7 fold increase in fluorescence. Kinetic parameters for enzymatic hydrolysis of the substrates were determined. Metalloendopeptidases can be assayed in the presence of serine proteinases (of the subtilisin type) using Abz-Ala-Ala-Ile-pNA or Abz-Ala-Ala-Val-pNA.
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PMID:[New fluorescent substrates for metalloendopeptidases with internal quenching of fluorescence]. 342 2

The present study was an in vitro attempt to define the effector mechanisms against the intracellular bacterium Legionella pneumophila. Monocytes from human peripheral blood leukocytes (PBL) were infected in vitro with L. pneumophila and cultured for 2 days to allow intracellular replication of the bacterium. Cells were then labeled with 51Cr and used as targets in a 4-h 51Cr-release assay. We report here that autologous nonadherent PBL effectively lysed infected monocytes, and this activity was enhanced when the effector cells were precultured with IL 2 for 2 days. The IL 2-activated killer cells were also cytolytic against uninfected cultured monocytes, but cytotoxicity was higher against Legionella-infected target cells in a dose-dependent manner. The effector cells were located in Percoll density fractions that were enriched for large granular lymphocytes. The phenotype of the effector cell activated by IL 2 was determined to be OKM1+, OKT11+, partially Leu-11+, and negative for Leu-M1, OKT4, OKT8, and Leu-7, indicating that it is neither a T cell nor a monocyte, and is possibly and NK subset that is Leu-11+ and Leu-7-. Cold target inhibition studies indicated that a similar recognition structure is shared by both infected and uninfected monocytes, but differs from that on K562 tumor target cells. Thus, in addition to tumor surveillance and controlling viral infections, killer cells can be activated to provide protection against intracellular bacterial infections.
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PMID:Cytolytic activity of human peripheral blood leukocytes against Legionella pneumophila-infected monocytes: characterization of the effector cell and augmentation by interleukin 2. 349 84

The amino acids required for growth and as energy sources by 10 strains of Legionella pneumophila were determined by using a chemically defined medium. All strains required arginine, cysteine, isoleucine, leucine, threonine, valine, methionine, and phenylalanine or tyrosine. Most strains (7 of 10) required serine, and two strains had to be supplied proline before growth could be established. All 10 strains used serine and, to a lesser extent, threonine as the sole sources of carbon and energy. The Y serine calculated was 94.9 +/- 8.5 g (dry weight) of cells/mol of serine. Assuming that the value of Y adenosine 5'-triphosphate is 10.5, these results indicate that oxidative catabolism of 1 mol of serine yielded approximately 9 mol of adenosine 5'-triphosphate. This high yield suggests that although serine was the major source of carbon, other amino acids may also be metabolized.
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PMID:Amino acid requirements of Legionella pneumophila. 676 47

The Mip ('macrophage infectivity potentiator') protein of Legionella pneumophila has been shown to be an essential virulence factor, exhibiting peptidyl-prolyl cis/trans isomerase (PPIase) activity that can be inhibited by the immunosuppressant FK506. The cloning and sequencing of mip genes from three different L. pneumophila strains revealed a single amino acid substitution which did not affect the isomerase property of the enzyme. Mip proteins isolated from two wild-type L. pneumophila strains and from two corresponding Escherichia coli K-12 recombinant clones derived from these strains exhibited identical enzymatic properties and the precursor proteins are processed at identical cleavage sites. The mature Mip proteins exist in an oligomeric form. Site-directed mutagenesis demonstrated that a substitution of an Asp residue at position 142 by a Leu residue affects PPIase activity of Mip.
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PMID:Characterization of Mip proteins of Legionella pneumophila. 751 6

Legionella pneumophila, the causative agent of Legionnaires' disease, is able to survive intracellularly in eukaryotic cells such as monocytes, macrophages, and protozoan organisms. The Mip (macrophage infectivity potentiator) protein represents a factor of L. pneumophila necessary for optimal intracellular survival. Interestingly, Mip belongs to the substance class of FK 506-binding proteins and exhibits peptidyl-prolyl cis/trans isomerase (PPIase) activity that can be inhibited by the immunosuppressant FK506. In order to identify amino acids most likely to be involved in the enzymatic activity of Mip, site-directed mutagenized Mip proteins were constructed and characterized. It was shown that an Asp-142 to Leu-142 mutation and a Tyr-185 to Ala-185 substitution resulted in strongly reduced PPIase activity of the recombinant Mip proteins (5.3 and 0.6% of the activity of the wild-type Mip, respectively). Genes coding for the wild-type and for site-directed-mutagenized Mip proteins were used to complement three different Mip-negative mutants of the L. pneumophila Corby, Philadelphia I, and Wadsworth. While Mip protein expression could be restored in the corresponding complementants, significant Mip-specific PPIase activity could be detected only in Mip mutants complemented with wild-type mip genes. To investigate the influence of the PPIase activity of Mip on intracellular survival of L. pneumophila, invasion assays were performed using the macrophage-like cell line U937, human blood monocytes, and Acanthamoeba castellanii. The Mip-negative mutants were approximately 50- to 100-fold less infective for A. castellanii and for human mononuclear phagocytes in vitro compared with their isogenic Mip-positive parental strains. The wild-type invasion rate could be restored by introducing an intact copy of the mip gene into Mip-negative strains. In addition, no differences in intracellular survival were observed between the wild-type isolates and the Legionella strains exhibiting strongly reduced PPIase activity. These data indicated that the enzymatic activity of Mip does not contribute to intracellular survival of L. pneumophila.
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PMID:Influence of site specifically altered Mip proteins on intracellular survival of Legionella pneumophila in eukaryotic cells. 759 Nov 8

High-speed supernatant fluids derived from sonicated Coxiella burnetii contained considerable acid phosphatase activity when assayed by using 4-methylumbelliferylphosphate; they also contained a factor that blocked superoxide anion production by human neutrophils stimulated with formyl-Met-Leu-Phe. The pH optimum of the enzyme was approximately 5.0. The level of phosphatase activity detected in several isolates of C. burnetii implicated in acute (Nine Mile) and chronic (S Q217, PRS Q177, K Q154) Q fever was 25 to 60 times greater than that reported in other microorganisms, including Leishmania and Legionella spp. The enzyme was found in rickettsiae grown in different hosts (L929 cells and embryonated eggs) and, in the case of L929 cells, for both short periods (less than a month) and the long term (years). Cytochemical techniques coupled with electron microscopy localized the phosphatase activity to the periplasmic gap in the parasite. Ion-exchange chromatography revealed a major species of the enzyme and showed that the enzyme of the parasite was distinct from that of the host cell (L929 fibroblasts); its apparent molecular weight was 74,000. Phosphatase inhibitors (i.e., molybdate heteropolyanions) had differential effects on the phosphatases of the parasite and host cell. C. burnetii supernatant fluid inhibited superoxide anion production by formyl-Met-Leu-Phe-stimulated human neutrophils; molybdate inhibitors reversed the inhibition. Treatment of C. burnetii-infected L929 cells with one of the molybdate compounds (complex B') significantly reduced the level of infection and did not affect the viability or growth of the host cell. These data suggest that the acid phosphatase of the parasite may be a major virulence determinant, allowing the agent to avoid being killed during uptake by phagocytes and subsequently in the phagolysosome.
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PMID:Acid phosphatase activity in Coxiella burnetii: a possible virulence factor. 840 11


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