UMLS:C0023241 - FACTA Search

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

We prospectively compared a commercially available Legionella DNA probe with culture and direct immunofluorescence. The analytical sensitivities of the DNA probe and direct immunofluorescence were equal. Both tests detected 4 X 10(3) CFU of Legionella pneumophila or Legionella micdadei per ml in the pulmonary secretions of experimentally infected guinea pigs. The diagnostic sensitivity of the reagent was evaluated by using 809 samples of respiratory secretions. Of 51 DNA probe-positive specimens, 31 came from patients with culture-confirmed legionellosis. Two culture-positive specimens had negative DNA probe tests. The sensitivity and specificity of the DNA probe were 93.9 and 97.4%, respectively. The sensitivity and specificity of direct immunofluorescence were 68.9 and 99.6%, respectively. The low specificity of the DNA probe resulted in an unacceptable positive predictive value (60.8%). False-positive DNA probe tests were not due to nonspecific binding of the probe or to technical problems but were associated with one lot of probe reagent. Most of the false-positive probe tests had values near the threshold value of greater than or equal to 4.0 suggested by the manufacturer. Raising the threshold value for a positive test to 7 lowered the sensitivity to 69.2% but raised the specificity to 99.2%. At this level, the performances of the DNA probe and direct fluorescent-antibody testing were equivalent. Respiratory secretions from patients receiving therapy for culture-confirmed Legionella infection remained DNA probe positive for up to 8 days, even though cultures and/or direct immunofluorescence tests often became negative. The DNA probe test is a satisfactory replacement for direct immunofluorescence but cannot replace culture for the laboratory diagnosis of Legionella infections.
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PMID:Laboratory and clinical evaluation of a commercial DNA probe for the detection of Legionella spp. 268 31

During an epidemiologic survey, an unidentified strain of Legionella was isolated from water of a thermal spa in France. The strain (Lyon 8420412) had the cultural and biochemical characteristics typical of the genus Legionella. In direct immunofluorescence tests, the strain reacted weakly with fluorescein-conjugated antisera prepared against L. bozemanii serogroups 1 and 2, L. longbeachae serogroups 1 and 2 and L. anisa, and failed to react with sera prepared against 36 other species or serogroups. A fluorescein-conjugated antiserum prepared against strain Lyon 8420412 reacted strongly with the homologous strain and only weakly with the above-mentioned species. The cell-wall fatty acid profile, with a predominance of hexadecenoic (16:1) and hexadecanoic (16:0) acids, ubiquinone Q10 as the major quinone and a characteristic protein electrophoresis profile suggested that the isolate was different from other Legionella species. In DNA-DNA hybridization experiments, the strain was distinct from all named Legionella species, and from all unnamed species currently under study at the Centers for Disease Control. The name Legionella gratiana is proposed for the new species (type strain Lyon 8420412; CDC 1242). A serologic survey of antibodies reacting against L. gratiana indicated that personnel or patients at the spa therapy centre where the organism was isolated had higher antibody titres than a control population.
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PMID:Legionella gratiana sp. nov. isolated from French spa water. 269 60

In addition to providing a powerful approach for identifying bacterial factors required for full infectivity and disease production, genetic analysis of Legionella pathogenesis should also lend critical insight into the biology of the macrophage and into the pathogenesis of other intracellular parasites. The interaction between L. pneumophila and the macrophage exhibits many features found in a wide variety of prokaryotic and eukaryotic intracellular human pathogens. For example, binding to complement receptors has been shown to occur for Mycobacterium tuberculosis, M. leprae, Leishmania donovani, Leishmania major and Histoplasma capsulatum. Coiling phagocytosis has been observed during entry of L. donovani. Phagosomes that contain Toxoplasma gondii or M. tuberculosis fail to fuse with lysosomes and, in the case of T. gondii, have been shown to remain close to neutral pH. Although the molecular bases for these phenomena are unknown, their functional similarities to the L. pneumophila-macrophage interaction provide optimism that generally applicable principles are involved. The genetic techniques reviewed here will provide the molecular tools with which such questions of a general biologic nature can be framed and eventually answered. Together with more traditional methods in biochemistry, microbiology and cell biology, molecular genetics offers a robust means toward identifying and understanding the bacterial factors involved in the pathogenesis of Legionnaires' disease. Molecular studies of L. pneumophila can also help address questions concerning the epidemiology, diagnosis and prevention of disease. For example, the distribution of virulence factors might help explain and predict the attack rates of different L. pneumophila strains or Legionella species. Moreover, bacterial genes/factors that are shown to be conserved in Legionella strains could be used to develop such diagnostic tools as DNA probes. Novel types of vaccines consisting of genetically constructed, avirulent L. pneumophila strains or subunit vaccines based on the molecular characterization of virulence factors might be developed and tested as protective immunogens. In this way, the capacity to analyze and to manipulate L. pneumophila genetically may facilitate the use of Legionnaires' disease as a model infection for studying protective cell-mediated immunity. Apart from its clinical significance as the etiologic agent of Legionnaires' disease, L. pneumophila may be a key to broader understandings in microbial pathogenesis and human cell biology and immunology. Although the extremely complex processes of bacterial infection and virulence are best understood when a variety of experimental approaches are employed, we believe that the evolving molecular genetic techniques reviewed here will be critical elements in many important breakthroughs in the future.
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PMID:Genetics and molecular pathogenesis of Legionella pneumophila, an intracellular parasite of macrophages. 269 60

Legionella pneumophila strains isolated from six patients, three air-conditioning- and cooling tower-derived strains, and three hot water supply-derived strains were analyzed by three genetic typing methods. The results of the whole-cell DNA restriction endonuclease analysis and the restriction patterns based on genes coding for rRNA correlated with each other and demonstrated that the patient isolates were indistinguishable from the air-conditioning- and cooling tower-derived isolates but differed markedly from the hot water supply-derived isolates. The patient and air-conditioning- and cooling tower-derived strains contained plasmids of the same molecular weight; the hot water supply-derived strains were plasmidless. These results indicated that the cooling tower or the air-conditioning system was the environmental source for the examined cluster of Legionnaires disease strains.
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PMID:Genetic typing in a cluster of Legionella pneumophila infections. 274 85

A sensitive detection system specific for Legionella pneumophila in water was developed. This system is based on amplification of a chromosomal DNA sequence from L. pneumophila by the polymerase chain reaction, followed by detection of the amplified product by hybridization of a radiolabeled oligodeoxynucleotide. After 35 cycles of amplification, a water sample which had been seeded with 35 CFU of L. pneumophila contained sufficient amplified DNA to be detected on dot blots. Bacteria of other genera tested did not generate positive signals under these conditions. Application of this technique to environmental water samples may help identify the natural reservoirs of nosocomial and community-acquired L. pneumophila infections.
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PMID:Species-specific detection of Legionella pneumophila in water by DNA amplification and hybridization. 275

The plasmid profile of Legionella strains of different origin has been studied. 15 out of 32 Legionella cultures belonging to different strains have been found to contain plasmid DNA in an amount of 1 or 2 plasmids, with the exception of L. feelei having 6 plasmids. Only 1 out of 3 Legionella strains isolated in the USSR has been found to possess a plasmid with a molecular weight of about 80 MD. Plasmids with this molecular weight have been found in 13 Legionella strains under study, such plasmids in L. pneumophila strains of serogroup 1 (strains Flint 1 and Albuquerque 1) and serogroup 9 (strain No. 35282) having an exact molecular weight of 82.4 +/- 2.4 MD and being similar in molecular structure, which has been established as the result of their treatment with restrictases Pst 1 and Hind III.
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PMID:[Plasmid profile of strains of various Legionella species]. 280 Jul 91

DNA of strains of Legionella pneumophila serogroups 1, 3, 4, and 6, isolated from patients and environmental sources, was examined by restriction endonuclease analysis (REA). Major differences in profiles enabled subtyping in many strains with the same serogroup antigen. However, a cluster of L. pneumophila strains, originating from all the examined serogroups, had similar restriction endonuclease profiles, sometimes with minor differences. This suggests that the genetic similarity between strains of L. pneumophila of different serogroups is sometimes closer than in strains with the same serogroup antigen. Seven environmental sources harbored two L. pneumophila strains with various serogroup antigens; six sources had similar restriction endonuclease profiles. The resolution of small differences in profiles is hampered in REA by the great magnitude of DNA fragments; even upon extensive analysis, these differences are not always readily visualized. Double digestions with the restriction enzymes HpaI and HpaII showed the best results and sometimes revealed differences not evident by digestions with a single endonuclease. REA has a great capacity for accurate epidemiological typing of L. pneumophila, in addition to classical serogrouping; it appeared that the results of the two techniques do not necessarily correlate. On the other hand, it should be stressed that small differences in profiles are not easily detected by REA.
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PMID:Similar DNA restriction endonuclease profiles in strains of Legionella pneumophila from different serogroups. 284 49

A strain of Legionella isolated from the environment which could not initially be identified was shown by restriction fragment length polymorphisms to be a Legionella spiritensis. This was confirmed by DNA homology studies, cell wall fatty acid composition and isoprenoid quinone analysis. This strain, which is only the second reported representative of the species, was shown to be serologically distinct from the type strain of L. spiritensis and all other serogroups of Legionella.
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PMID:Serological diversity within the species Legionella spiritensis. 290 32

To investigate the pathogenesis of Legionnaires disease at a molecular level, we mutated by directed allelic exchange a gene encoding a Legionella pneumophila-specific 24,000-dalton (Da) surface protein. Southern hybridization and immunoblot analyses demonstrated that the predicted DNA rearrangement occurred in L. pneumophila with a specific loss of 24-kDa antigen expression. Compared with its isogenic parent, the mutant was significantly impaired in its ability to infect transformed U937 cells, a human macrophagelike cell line; i.e., the bacterial inoculum of the mutant strain that was required to initiate infection of the macrophage monolayer was ca. 80-fold greater than that of the isogenic parent strain. The mutant strain regained full infectivity on reintroduction of a cloned 24-kDa protein gene, indicating that the reduced infectivity was due specifically to the mutation in that gene. Compared with the parent strain, the mutant strain was recovered at titers that were ca. 10-fold lower shortly after infection, but it exhibited a similar intracellular growth rate over the next 40 h, indicating that the mutant was defective in its ability to initiate macrophage infection rather than in its ability to replicate intracellularly. When opsonized, the mutant strain was still significantly less infectious than the parent strain, despite equivalent macrophage association, suggesting that the mutant was not merely missing a ligand for macrophage attachment. The mutant also exhibited reduced infectivity in explanted human alveolar macrophages, demonstrating the relevance of the U937 cell model for analyzing this mutant phenotype. These results represent the first identification of a cloned L. pneumophila gene that is necessary for optimal intracellular infection; we designate this gene mip, for macrophage infectivity potentiator.
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PMID:A Legionella pneumophila gene encoding a species-specific surface protein potentiates initiation of intracellular infection. 292 51

In a previous study, a 24-kilodalton (kDa) protein surface antigen of Legionella pneumophila was cloned into Escherichia coli and found to be expressed on the host cell surface. Subsequently, a site-directed mutation in this gene (designated mip) in L. pneumophila was found to impair the capacity of this bacterium to initiate intracellular infection in human macrophages. The work presented here indicates that the antigenic gene product is distinct from the 24- to 29-kDa major outer membrane protein of L. pneumophila. In addition, the antigen was identified as a highly basic protein on two-dimensional nonequilibrium polyacrylamide gels and on two-dimensional monoclonal antibody immunoblots. When the DNA fragment encoding this protein was sequenced, a long open reading frame of 699 base pairs was identified within a region to which antigen expression was previously mapped. mip mRNA isolated from both L. pneumophila and transformed E. coli had the same 5' end, as determined by primer extension analysis, indicating that the same promoter sequences are used in both species. A likely factor-independent transcriptional terminator was found 20 residues downstream of the stop codon, suggesting that mip is encoded on a monocistronic message. The inferred polypeptide began with a possible 20- to 24-residue signal sequence, and, as predicted by two-dimensional electrophoresis, had a molecular weight of 24,868 and was a potent polycation with an estimated pI of 9.8.
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PMID:DNA sequence of mip, a Legionella pneumophila gene associated with macrophage infectivity. 292 52

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