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Query: UMLS:C0023241 (
Legionella
)
6,990
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Legionella
pneumophila, the causative agent of
Legionnaires' disease
, contains two superoxide dismutases (SODs), a cytoplasmic iron enzyme (FeSOD) and a periplasmic copper-zinc
SOD
. To study the role of the FeSOD in L. pneumophila, the cloned FeSOD gene (sodB) was inactivated with Tn903dIIlacZ, forming a sodB::lacZ gene fusion. By using this fusion, expression of sodB was shown to be unaffected by a variety of conditions, including several that influence sod expression in Escherichia coli: aeration, oxidants, the redox cycling compound paraquat, manipulation of iron levels in the medium, and the stage of growth. A reproducible twofold decrease in sodB expression was found during growth on agar medium containing charcoal, a potential scavenger of oxyradicals, in comparison with growth on the same medium without charcoal. No induction was seen during growth in human macrophages. Additional copies of sodB+ in trans increased resistance to paraquat. Construction of a sodB mutant was attempted by allelic exchange of the sodB::lacZ fusion with the chromosomal copy of sodB. The mutant could not be isolated, and the allelic exchange was possible only if wild-type sodB was present in trans. These results indicate that the periplasmic copper-zinc
SOD
cannot replace the FeSOD. The data strongly suggest that sodB is an essential gene and that FeSOD is required for the viability of L. pneumophila. In contrast, Sod- mutants of E. coli and Streptococcus mutans grow aerobically and
SOD
is not required for viability in these species.
...
PMID:The iron superoxide dismutase of Legionella pneumophila is essential for viability. 820 58
The
superoxide dismutase
(
SOD
) of Helicobacter pylori, a pathogenic bacterium which colonizes the gastric mucosa, evoking a marked inflammatory response, was purified and characterized, and the N-terminal amino acid sequence was determined. The enzyme consists of two identical subunits each with an apparent molecular weight of 24,000. Analysis of the primary structure and inhibition studies revealed that H. pylori possesses a typical procaryotic iron-containing enzyme. No other isoenzymes could be detected. Indirect gold immunostaining of H. pylori
SOD
with a polyclonal antibody directed against the iron-containing
SOD
of Escherichia coli showed a surface-associated localization of the enzyme. The H. pylori
SOD
gene was cloned by functional complementation of a
SOD
-deficient E. coli mutant. Sequencing and alignment revealed striking homology to the following facultative intracellular human pathogens: Listeria ivanovii, Listeria monocytogenes, Coxiella burnetti, Porphyromonas gingivalis,
Legionella
pneumophila, and Entamoeba histolytica. An open reading frame of 642 bp encoding 214 amino acids was determined. There was no leader sequence detectable. Cloning of the H. pylori
SOD
gene is one of the prerequisites to investigation of its pathophysiological role in the defense against antimicrobial mechanisms of polymorphonuclear granulocytes.
...
PMID:Purification of Helicobacter pylori superoxide dismutase and cloning and sequencing of the gene. 822 5
Legionella
pneumophila has high iron requirements, and its intracellular growth in human monocytes is dependent on the availability of intracellular iron. To learn more about iron metabolism in L. pneumophila, we have undertaken an analysis of the iron proteins of the bacterium. We first developed an assay to identify proteins by 59Fe labelling and nondenaturing polyacrylamide gel electrophoresis. The assay revealed seven iron proteins (IPs) with apparent molecular weights of 500, 450, 250, 210, 150, 130, and 85. IP150 comigrates with
superoxide dismutase
activity and is probably the Fe-
superoxide dismutase
of L. pneumophila. IP210 is the major iron-containing protein (MICP). To identify and characterize MICP, we purified the protein and cloned and sequenced its gene. MICP is a monomeric protein containing 891 amino acids, and it has a calculated molecular mass of 98,147 Da. Analysis of the sequence revealed that MICP has two interesting homologies. First, MICP is highly homologous with the human iron-responsive element-binding protein, consistent with the hypothesis that this critical iron-regulatory molecule of humans has a prokaryotic ancestor. Second, MICP is highly homologous with the Escherichia coli aconitase and to a lesser extent with porcine heart mitochondrial aconitase. Consistent with this, we found that MICP exhibits aconitase activity. In contrast to other aconitases, MICP has a single amino acid change of a potentially deleterious type at a site thought to be critical for substrate binding and enzymatic activity. However, the specific activity of MICP is roughly comparable to that of other aconitases, suggesting that the mutation has at most a mild effect on the aconitase activity of MICP. The abundance of MICP in L. pneumophila suggests either that L. pneumophila requires high aconitase and perhaps tricarboxylic acid cycle activity or that the bacterium requires large amounts of this protein to serve an additional role in bacterial physiology. A need for large amounts of MICP, which contains four Fe atoms per molecule when fully loaded, could at least partly explain L. pneumophila's high metabolic requirement for iron.
...
PMID:The major iron-containing protein of Legionella pneumophila is an aconitase homologous with the human iron-responsive element-binding protein. 836 52
A facultative intracellular parasite
Legionella
pneumophila has two kinds of
superoxide dismutase
(
SOD
), iron-containing
superoxide dismutase
(Fe-SOD) and copper,zinc-containing one (Cu,Zn-SOD). We cloned both
SOD
genes of L. pneumophila and determined their DNA sequences. The Fe-SOD gene (sodB), isolated by functional complementation of a
SOD
-deficient Escherichia coli strain, encoded a protein of 192 amino acids conserving the Fe-SOD-specific amino acid residues. A clone containing entire Cu,Zn-SOD gene (sodC) was constructed by connecting two contiguous DNA fragments; one with a lower part of the gene was obtained by colony hybridization with a probe acquired by polymerase chain reaction (PCR) with degenerate oligonucleotide primers corresponding to conserved regions of known Cu,Zn-SOD genes and the other with an upper part of the gene was by IPCR (inverted PCR). The sodC gene encoded a protein of 162 amino acids, of which the first 20 amino acids inferred a signal peptide similar to other bacterial Cu,Zn-SODs reported previously. Both clones expressed their
SOD
activities in E. coli K-12 through their own plausible promoters. We examined for
SOD
genes on chromosomes of several
Legionella
species. All chromosomes were hybridized with Fe-SOD gene of L. pneumophila, but Cu,Zn-SOD gene did not hybridize to the chromosomes of other than L. pneumophila strains.
...
PMID:Cloning and nucleotide sequences of iron and copper-zinc superoxide dismutase genes of Legionella pneumophila and their distribution among Legionella species. 908 94
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.
...
PMID:Effects of exogenous surfactant and recombinant human copper-zinc superoxide dismutase on oxygen-dependent antimicrobial defenses. 1216 31
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