The alternative sigma factor sigma28 of Legionella pneumophila restores flagellation and motility to an Escherichia coli fliA mutant

Heuner, Klaus; Hacker, Jörg; Brand, Bettina

doi:10.1128/jb.179.1.17-23.1997

Cited by 49 publications

(51 citation statements)

References 47 publications

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“…flaA) (Albert-Weissenberger et al 2010;Brüggemann et al 2006;Jacobi et al 2004;Heuner and Albert-Weissenberger 2008). It is known that L. pneumophila rpoN, fleQ, fliA and flaA mutant strains are non-flagellated and non-motile (Heuner et al 1995;Heuner et al 2002;Heuner et al 1997;Jacobi et al 2004;Molofsky et al 2005). Conflicting data suggested different regulation mechanisms in strains Corby and Paris for fliA expression.…”

Section: Introductionmentioning

confidence: 99%

FliA expression analysis and influence of the regulatory proteins RpoN, FleQ and FliA on virulence and in vivo fitness in Legionella pneumophila

et al. 2012

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Section: Introductionmentioning

confidence: 99%

FliA expression analysis and influence of the regulatory proteins RpoN, FleQ and FliA on virulence and in vivo fitness in Legionella pneumophila

et al. 2012

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“…As most of the genome of L. pneumophila has already been sequenced (http://genome3.cpmc.columbia .edu/ϳlegion/index.html), we looked for all the genes that have homology to known sigma factors and found that L. pneumophila contains homologs to at least six sigma factors (RpoD, RpoH, RpoF, RpoE, RpoS, and RpoN). The promoter sequence recognized by two of these sigma factors in L. pneumophila is already known (2,22). RpoH and RpoF recognize sequences similar to the ones recognized by their E. coli homologs (CTTGAAA [11 to 16]CCCATnT for RpoH [n ϭ A, G, T, or C] and TAAA [15]GCCGATAA for RpoF).…”

Section: Vol 184 2002 Regulatory Elements Of the L Pneumophila Icmmentioning

confidence: 99%

Analysis of DNA Regulatory Elements Required for Expression of theLegionella pneumophilaicmanddotVirulence Genes

2002

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To investigate the regulation of the Legionella pneumophila icm and dot genes required for intracellular growth, a series of nine icm::lacZ fusions were constructed. These icm::lacZ fusions were found to have different levels of expression in L. pneumophila, and five of them were more highly expressed at stationary phase than at exponential phase. When the expression of these fusions in Escherichia coli was tested, all of them were found to be expressed but three of them had dramatic changes in their levels of expression in comparison to those in L. pneumophila. Site-directed and PCR random mutagenesis with these icm::lacZ fusions was used to identify DNA regulatory elements of icm genes. Four icm genes (icmT, icmP, icmQ, and icmM) that had low levels of expression in L. pneumophila were found to contain a 6-bp sequence (TATACT) essential for their expression. This sequence was shown by primer extension to serve as their ؊10 promoter elements. A similar sequence, which constitutes the ؊10 promoter elements of the icmV, icmW, and icmR genes which had high levels of expression in L. pneumophila, was also identified. In addition, regulatory elements that probably serve as binding sites for transcription regulators were found in these genes. Altogether, 12 regulatory elements, 7 of which constitute the ؊10 promoter elements of the icm genes, were found. Even though all the icm and dot genes are part of one system required for L. pneumophila intracellular growth and even though their promoters are probably recognized by the vegetative sigma factor, it seems that they are subjected to different regulation mediated by several regulatory factors.Legionella pneumophila, the causative agent of Legionnaires' disease, is a facultative intracellular pathogen. L. pneumophila is able to infect, multiply within, and kill human macrophages, as well as free-living amoebae (28, 38). The bacteria are taken up by regular phagocytosis or by a special mechanism termed "coiling" phagocytosis (9, 26). They are then found within a specialized phagosome that does not fuse with lysosomes or acidify (9,24,27). The specialized phagosome undergoes several recruitment events, which include association with smooth vesicles, mitochondria, and the rough endoplasmic reticulum (1,25,49); the bacteria multiply within the specialized phagosome until the cell eventually lyses, releasing bacteria that can start new rounds of infection (28,38).Two regions of genes required for human macrophage killing and intracellular multiplication have been discovered in L. pneumophila (reviewed in references 44 and 51). Region I contains 7 genes (icmV, -W, and -X and dotA, -B, -C, and -D) (8, 10, 32, 50), and region II contains 17 genes (icmT, -S , -R, -Q, -P, -O, -N, -M, -L, -K, -E, -G, -C, -D, -J, -B, and -F) (3,35,41,43,50). Complementation analysis of these genes indicated that they are probably organized as nine transcriptional units (icmTS, icmR, icmQ, icmPO, icmMLKEGCD, icmJB, icmFtphA, icmWX, and icmV-dotA) (8,10,35,41,43,50). Most of these genes were also...

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“…Previous reports suggest that the expression of flagella is temperature regulated, since it is repressed at temperatures higher than 37°C (36). Recently, we demonstrated that the expression of the flaA gene is regulated at the transcriptional level (24) by the alternative 28 factor (FliA) and probably by FlaR, a regulator of the LysR family (25). Moreover, the complex flagellum expression and assembly seems to be coordinatively regulated with other virulence-associated traits (6,16,38,40).…”

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Flagellum of Legionella pneumophila Positively Affects the Early Phase of Infection of Eukaryotic Host Cells

et al. 2001

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Legionella pneumophila, the etiologic agent of Legionnaires' disease, contains a single, monopolar flagellum which is composed of one major subunit, the FlaA protein. To evaluate the role of the flagellum in the pathogenesis and ecology of Legionella, the flaA gene of L. pneumophila Corby was mutagenized by introduction of a kanamycin resistance cassette. Immunoblots with antiflagellin-specific polyclonal antiserum, electron microscopy, and motility assays confirmed that the specific flagellar mutant L. pneumophila Corby KH3 was nonflagellated. The redelivery of the intact flaA gene into the chromosome (L. pneumophila Corby CD10) completely restored flagellation and motility. Coculture studies showed that the invasion efficiency of the flaA mutant was moderately reduced in amoebae and severely reduced in HL-60 cells. In contrast, adhesion and the intracellular rate of replication remained unaffected. Taking these results together, we have demonstrated that the flagellum of L. pneumophila positively affects the establishment of infection by facilitating the encounter of the host cell as well as by enhancing the invasion capacity.Legionella pneumophila, the etiologic agent of Legionnaires' disease, is a ubiquitous microorganism inhabiting natural and man-made freshwater biotopes (5). In these environments, the gram-negative, rod-shaped bacteria survive as intracellular pathogens of protozoan organisms such as Acanthamoeba castellanii, Hartmannella vermiformis, and Naegleria spp. (15). Upon transmission to individuals via L. pneumophila-containing aerosols generated by showerheads and air-conditioning systems, the bacteria invade and multiply within alveolar macrophages (1, 2, 7) and nonphagocytic cells (17). The infection which mainly affects immunocompromised patients results in a life-threatening atypical pneumonia (7).Detailed ultrastructural and molecular studies of the intracellular fate of the bacterium revealed that human macrophages and protozoan cells infected with L. pneumophila exhibit remarkable similarities concerning the establishment of a replicative phagosome (3,16,22,42,45). However, significant differences were observed during early stages of infection (21). Uptake by Hartmannella is accomplished by a microfilamentindependent mechanism that is sensitive to methylamine, which is an inhibitor of receptor-mediated endocytosis (28). So far, one receptor of Hartmanella vermiformis, a Gal/GalNAc lectin, could be identified (46). Attachment of L. pneumophila to this lectin results in tyrosine dephosphorylation of multiple host cell proteins. However, depending on the type of amoeba, different receptors might be involved (22). In contrast, the uptake by human macrophages occurs following binding of complement receptors CR1 and CR3 via microfilament-dependent phagocytosis (26). In addition to this cytochalasin D-sensitive mechanism, complement-independent mechanisms for uptake by nonphagocytic cells have been described (39).The influence of bacterial motility on infection processes or on survival of legio...

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The alternative sigma factor sigma28 of Legionella pneumophila restores flagellation and motility to an Escherichia coli fliA mutant

Cited by 49 publications

References 47 publications

FliA expression analysis and influence of the regulatory proteins RpoN, FleQ and FliA on virulence and in vivo fitness in Legionella pneumophila

FliA expression analysis and influence of the regulatory proteins RpoN, FleQ and FliA on virulence and in vivo fitness in Legionella pneumophila

Analysis of DNA Regulatory Elements Required for Expression of theLegionella pneumophilaicmanddotVirulence Genes

Flagellum of Legionella pneumophila Positively Affects the Early Phase of Infection of Eukaryotic Host Cells

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