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Query: UMLS:C0023241 (Legionella)
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The nucleotide sequence of the mip genes and their inferred amino acid sequences were determined from 35 Legionella species and compared with the published sequences for L. pneumophila, L. micdadei and L. longbeachae. The sequences were 69-97% conserved at the nucleotide level and 82-99% at the amino acid level, with total conservation of amino acids determined to be associated with sites known to be involved in peptidyl prolyl cis-trans isomerase activity. No apparent difference could be determined in the arrangement of amino acids that would predict a functional difference in Mip from species associated with disease and Mip from species isolated only from the environment. Additionally, a phylogenetic comparison of the sequences with published 16S RNA sequences, using both genetic distance and maximum parsimony methods, was performed. Few relationships were apparent that were well supported by both data sets, the most robust being a clade comprising ([(cincinnatiensis, longbeachae, sainthelensi, santicrucis) gratiana] (moravica, quateirensis, shakespearei, worsleiensis) anisa, bozemanii, cherrii, dumoffii, gormanii, jordanis, parisiensis, pneumophila, steigerwaltii, tucsonensis, and wadsworthii).
Mol Microbiol 1997 Sep
PMID:Interspecies sequence differences in the Mip protein from the genus Legionella: implications for function and evolutionary relatedness. 935 Aug 70

Legionella pneumophila is the cause of Legionnaires' pneumonia. After Internalization by macrophages, it bypasses the normal endocytic pathway and occupies a replicative phagosome bound by endoplasmic reticulum. Here, we show that lysis of macrophages and red blood cells by L. pneumophila was dependent on dotA and other loci known to be required for proper targeting of the phagosome and replication within the host cell. Cytotoxicity occurred rapidly during a high-multiplicity infection, required close association of the bacteria with the eukaryotic cell and was a form of necrotic cell death accompanied by osmotic lysis. The differential cytoprotective ability of high-molecular-weight polyethylene glycols suggested that osmotic lysis resulted from insertion of a pore less than 3 nm in diameter into the plasma membrane. Results concerning the uptake of membrane-impermeant fluorescent compounds of various sizes are consistent with the osmoprotection analysis. Therefore, kinetic and genetic evidence suggested that the apparent ability of L. pneumophila to insert a pore into eukaryotic membranes on initial contact may play a role in altering endocytic trafficking events within the host cell and in the establishment of a replicative vacuole.
Mol Microbiol 1998 Jan
PMID:Evidence for pore-forming ability by Legionella pneumophila. 948 88

Numerous intracellular bacterial pathogens modulate the nature of the membrane-bound compartment in which they reside, although little is known about the molecular basis for this control. Legionella pneumophila is a bacterial pathogen able to grow within human alveolar macrophages and residing in a phagosome that does not fuse with lysosomes. This study demonstrates that the dotA product is required to regulate trafficking of the L. pneumophila phagosome. Phagosomes containing L. pneumophila dotA+ bacteria exhibited differential trafficking profiles when compared with isogenic dotA mutants. Phagosomes containing dotA mutants showed rapid accumulation of the lysosomal glycoprotein LAMP-1 as early as 5 min after uptake, whereas the majority of wild-type L. pneumophila phagosomes did not acquire LAMP-1. The association of LAMP-1 with phagosomes containing dotA mutant bacteria was concomitant with the appearance of the small GTP-binding protein Rab7 on the vacuolar membrane. These data demonstrate that phagosomes containing replication-competent L. pneumophila evade early endocytic fusion events. In contrast, the kinetics of LAMP-1 and Rab7 association indicate that the dotA mutants are routed along a well-characterized endocytic pathway leading to fusion with lysosomes. Genetic studies show that L. pneumophila requires DotA expression before macrophage uptake in order to establish an intracellular site for replication. However, the bacteria do not appear to require continuous expression of the DotA protein to maintain a replicative phagosome. These data indicate that DotA is one factor that plays a fundamental role in regulating initial phagosome trafficking decisions either upon or immediately after macrophage uptake.
Mol Microbiol 1998 May
PMID:Legionella pneumophila DotA protein is required for early phagosome trafficking decisions that occur within minutes of bacterial uptake. 963 67

The monoclonal antibodies (MAbs) against lipopolysaccharide of virulent strain of Legionella pneumophila serogroup 1 were produced. Three most productive hybrid clones (5F4, 5F10 and 2C9) were selected from fusions of mouse myeloma cells with spleen cells from BALB/c mice, immunized with bacterial outer membrane antigens. All generated clones were IgG-secreting. The MAbs had narrow strain specificity and showed no cross-reactions with other unrelated bacterial species. These antibodies were tested in sandwich ELISA. The results suggest that the MAbs could be used for diagnostic purposes.
Biochem Mol Biol Int 1998 Sep
PMID:Monoclonal antibodies directed against lipopolysaccharide of Legionella pneumophila serogroup 1. 976 15

Previously we have reported that Legionella pneumophila can mediate plasmid DNA transfer at a frequency of about 10(-3) transconjugants per donor and that this process is dependent on several icm genes. Here we characterize the icm-dependent conjugal ability of L. pneumophila and study its relationship to intracellular multiplication and host cell killing. We found that three icm genes and the RSF1010 mobA gene are completely required and that three icm genes and the RSF1010 mobC gene are partially required for conjugation. Conjugation occurred during lag phase and stopped when the cell number increased. Inhibition of transcription or translation in the donor had only a minor effect on conjugation frequency. These results suggest that stationary-phase bacteria contain a functional icm complex that can mediate conjugal DNA transfer and probably can initiate infection of human macrophages as well. We also found that a functional RSF1010 mobilization system inhibits intracellular multiplication and killing of human macrophages by L. pneumophila. The strongest inhibition was observed in icm insertion mutants complemented with wild-type icm genes on an RSF1010-derived plasmid. These results suggest that the conjugation substrate probably competes with the natural substrate of the L. pneumophila icm system for transfer outside the bacterial cell. We propose that the function of the L. pneumophila icm system is to transfer effector molecules to the host cell. These effector molecules may interact with components of the host cell that are involved in phagosome formation and fate.
Mol Microbiol 1998 Oct
PMID:Intracellular multiplication and human macrophage killing by Legionella pneumophila are inhibited by conjugal components of IncQ plasmid RSF1010. 978 96

Phagocytic immune cells (particularly macrophages and neutrophils) take up and digest particles that have invaded our bodies. In doing so, they represent a very early line of defence against a microbial attack. During uptake, the particles are wrapped by a portion of the phagocyte's plasma membrane, and a new endocytic compartment, the phagosome, is formed. The typical fate of a phagosome is its fusion with lysosomes to yield a phagolysosome in which the particle is digested. Recent data show that some 'intracellular microorganisms' that can cause severe illnesses (tuberculosis, leprosy, legionnaire's disease and others) manage to reprogramme the host phagocytes not to deliver them to the lysosomal compartment. This probably results in increased survival of the pathogens. The analysis of the composition of such 'novel' compartments and research on the molecular mechanisms underlying the microbial interference with host cell functions are likely to yield important insights into: (1) which endocytic/phagocytic compartments phagocytes employ to handle ingested material in general; (2) how some pathogenic microorganisms can reprogramme the phagocytic pathway; and possibly (3) how infections caused by these microorganisms can be treated more effectively. Here, some studies are presented analysing which compartments intracellular pathogens inhabit and how microbes might be able to reprogramme their host cells.
Mol Membr Biol
PMID:Reprogramming the phagocytic pathway--intracellular pathogens and their vacuoles (review). 985 8

Prepilin peptidases cleave, among other substrates, the leader sequences from prepilin-like proteins that are required for type II protein secretion in Gram-negative bacteria. To begin to assess the importance of type II secretion for the virulence of an intracellular pathogen, we examined the effect of inactivating the prepilin peptidase (pilD) gene of Legionella pneumophila. Although the pilD mutant and its parent grew similarly in bacteriological media, they did differ in colony attributes and recoverability from late stationary phase. Moreover, at least three proteins were absent from the mutant's supernatant, indicating that PilD is necessary for the secretion of Legionella proteins. The absence of both the major secreted protein and a haemolytic activity from the mutant signalled that the L. pneumophila zinc metalloprotease is excreted via type II secretion. Most interestingly, the pilD mutant was greatly impaired in its ability to grow within Hartmannella vermiformis amoebae and the human macrophage-like U937 cells. As reintroduction of pilD into the mutant restored inefectivity and as a mutant lacking type IV pilin replicated like wild type, these data suggested that the intracellular growth of L. pneumophila is promoted by proteins secreted via a type II pathway. Intratracheal inoculation of guinea pigs revealed that the LD50 for the pilD mutant is at least 100-fold greater than that for its parent, and the culturing of bacteria from infected animals showed a rapid clearance of the mutant from the lungs. This is the first study to indicate a role for PilD and type II secretion in intracellular parasitism.
Mol Microbiol 1999 Feb
PMID:The prepilin peptidase is required for protein secretion by and the virulence of the intracellular pathogen Legionella pneumophila. 1004 38

Legionella pneumophila is a protozoan parasite that causes Legionnaires' disease. Its ability to do so is dependent on its capacity to replicate intracellularly within a phagosome that is not trafficked through the endosomal-lysosomal pathway and is surrounded by the rough endoplasmic reticulum. Within this unique niche, the bacterium undergoes alterations in gene expression. In addition, many virulence-related phenotypes that are induced in vitro by starvation are expressed intracellularly as the bacteria exit the logarithmic growth phase. (p)ppGpp appears to signal expression of the virulence-related genes in L. pneumophila upon starvation. This growth phase-dependent phenotypical transition is concomitant with lysis of the host cell, in which both necrosis and apoptosis seem to play roles. Many genetic loci that are required for intracellular replication within mammalian and protozoan cells have been identified, and the majority of them are novel. Two secretion systems have been identified, one of which may be distantly related to type IV secretion systems. The other is a type II secretion system similar to the PilBCD piliation system of Pseudomonas aeruginosa.
Mol Microbiol 1998 Nov
PMID:Fatal attraction of mammalian cells to Legionella pneumophila. 1009 18

Bacterial pathogens often subvert eukaryotic cellular processes in order to establish a replicative niche and evade host immunity. Inhibition of phagosome lysosome fusion is a strategy used by several intracellular bacteria that grow within mammalian cells. It was shown recently that Legionella pneumophila possesses a cytolytic activity that results from the insertion of pores in the macrophage membrane upon contact, and that this activity requires the dot/icm gene products, which are necessary for intracellular growth and phagosome trafficking. Other bacteria that inhibit phagosome lysosome fusion, such as Mycobacterium tuberculosis, demonstrate similar cytolytic activities, which suggests that formation of pores in the phagosome membrane may account for the defects observed in phagosome trafficking. In this study, we identify a new class of L. pneumophila mutant that retains the pore-forming activity found in virulent bacteria, but is defective in phagosome lysosome fusion inhibition and intracellular growth. These data indicate that cytolytic activity is not sufficient for L. pneumophila-induced alterations in phagosome trafficking. Rather, the pore may be a vehicle that facilitates delivery of bacterial-derived effector molecules to the host cell cytoplasm.
Mol Microbiol 1999 Jun
PMID:Pore-forming activity is not sufficient for Legionella pneumophila phagosome trafficking and intracellular growth. 1036 1

Legionella pneumophila survives in aquatic environments, but replicates within amoebae or the alveolar macrophages of immunocompromised individuals. Here, the signal transduction pathway that co-ordinates L. pneumophila virulence expression in response to amino acid depletion was investigated. To facilitate kinetic and genetic studies, a phenotypic reporter of virulence was engineered by fusing flaA promoter sequences to a gene encoding green fluorescent protein. When subjected to amino acid depletion, L. pneumophila accumulated ppGpp and converted from a replicative to a virulent state, as judged by motility and sodium sensitivity. ppGpp appeared to initiate this response, as L. pneumophila induced to express the Escherichia coli RelA ppGpp synthetase independently of nutrient depletion accumulated ppGpp, exited the exponential growth phase and expressed flaAgfp, motility, sodium sensitivity, cytotoxicity and infectivity, five traits correlated with virulence. Although coincident with the stationary phase, L. pneumophila virulence expression appeared to require an additional factor: mutant Lp120 accumulated ppGpp and acquired two stationary phase traits but none of six virulence phenotypes analysed. We propose that, when nutrients are limiting, ppGpp acts as an alarmone, triggering the expression of multiple traits that enable L. pneumophila to escape its spent host, to survive and disperse in the environment and to re-establish a protected intracellular replication niche.
Mol Microbiol 1999 Aug
PMID:Co-ordination of legionella pneumophila virulence with entry into stationary phase by ppGpp. 1044 82

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