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

Gal-Mor, Ohad; Zusman, Tal; Segal, G. M.

doi:10.1128/jb.184.14.3823-3833.2002

Cited by 46 publications

(50 citation statements)

References 55 publications

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“…7A). This result indicates that the Ϫ10 promoter element of this transcriptional unit is unique among the icm genes, as it does not contain the conserved TATACT consensus sequence that was identified in the other icm gene regulatory regions (24).…”

Section: Vol 72 2004mentioning

confidence: 76%

“…This result indicates that the upstream regulatory element (probably located between the F6 and F12 icmH::lacZ fusions) is probably independent of the site mutated (located between the F10 and F11 icmH::lacZ fusions), since the level of expression of the F5 icmH::lacZ fusion was reduced only by the portion contributed by the downstream regulatory element. Comparison of the level of expression of the F5 icmH::lacZ fusion to the level of expression of the other icm::lacZ fusion (24) clearly shows that the icmH-icmF-tphA transcriptional unit has the highest level of expression of all the icm genes and operons examined.…”

Section: Vol 72 2004mentioning

confidence: 99%

“…In a previous study, a regulatory element (CTATAGAAT) located between the F10 and F11 truncations was identified, and one nucleotide substitution in this site (constructed on the F4 icmH::lacZ fusion) completely abolished the expression of the fusion (24). To determine the relationship between this site and the potential regulatory element located between the F6 and F12 FIG.…”

Section: Vol 72 2004mentioning

confidence: 99%

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Characterization of theicmHandicmFGenes Required forLegionella pneumophilaIntracellular Growth, Genes That Are Present in Many Bacteria Associated with Eukaryotic Cells

et al. 2004

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Legionella pneumophila, the causative agent of Legionnaires' disease, replicates intracellularly within a specialized phagosome of mammalian and protozoan host cells, and the Icm/Dot type IV secretion system has been shown to be essential for this process. Unlike all the other known Icm/Dot proteins, the IcmF protein, which was described before, and the IcmH protein, which is characterized here, have homologous proteins in many bacteria (such as Yersinia pestis, Salmonella enterica, Rhizobium leguminosarum, and Vibrio cholerae), all of which associate with eukaryotic cells. Here, we have characterized the L. pneumophila icmH and icmF genes and found that both genes are present in 16 different Legionella species examined. The icmH and icmF genes were found to be absolutely required for intracellular multiplication in Acanthamoeba castellanii and partially required for intracellular growth in HL-60-derived human macrophages, for immediate cytotoxicity, and for salt sensitivity. Mutagenesis of the predicted ATP/GTP binding site of IcmF revealed that the site is partially required for intracellular growth in A. castellanii. Analysis of the regulatory region of the icmH and icmF genes, which were found to be cotranscribed, revealed that it contains at least two regulatory elements. In addition, an icmH::lacZ fusion was shown to be activated during stationary phase in a LetA-and RelA-dependent manner. Our results indicate that although the icmH and icmF genes probably have a different evolutionary origin than the rest of the icm/dot genes, they are part of the icm/dot system and are required for L. pneumophila pathogenesis.Bacterial pathogens, as well as bacteria that live in close contact with eukaryotic cells, have developed many mechanisms to subvert their host cells and grow in intimate association with them. Many bacterial pathogens, such as Yersinia spp., Salmonella enterica, Pseudomonas aeroginosa, and Escherichia coli O157, use the type III secretion system as part of their pathogenesis determinants (14). Other bacteria such as Agrobacterium tumefaciens, Bordetella pertussis, and Legionella pneumophila use type IV secretion systems, which are functionally homologous to type III secretion systems but are evolutionarily related to bacterial conjugation systems, as opposed to the type III secretion systems, which are evolutionarily related to the bacterial flagellar basal body (9, 13).L. pneumophila, the causative agent of Legionnaires' disease, is a facultatively intracellular pathogen that is able to infect, multiply within, and kill human macrophages, as well as free-living amoebae (32, 48). Two regions of icm/dot genes that constitute the L. pneumophila icm/dot type IV secretion system have been discovered (reviewed in references 53 and 64). Region I contains 7 genes (icmV, -W, and -X and dotA, -B, -C, and -D) (3,6,39,63), and region II has been shown to contain 17 genes (icmT, -S, -R, -Q, -P, -O, -N, -M, -L, -K, -E, -G, -C, -D, -J, -B, and -F) (1,46,50,52,63). The icm/dot genes were shown to participate in m...

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Section: Vol 72 2004mentioning

confidence: 76%

Section: Vol 72 2004mentioning

confidence: 99%

Section: Vol 72 2004mentioning

confidence: 99%

See 1 more Smart Citation

Characterization of theicmHandicmFGenes Required forLegionella pneumophilaIntracellular Growth, Genes That Are Present in Many Bacteria Associated with Eukaryotic Cells

et al. 2004

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“…L. pneumophila contains homologs of at least six sigma factors (RpoD, RpoH, RpoF, RpoE, RpoS, and RpoN) (14). In contrast, E. chaffeensis encodes only two sigma factor homologs: a constitutive 70 factor and a single alternative factor, 32 (RpoH) (17).…”

Section: Discussionmentioning

confidence: 99%

“…In Legionella, the icm/dot T4S system is organized into at least 11 transcriptional units that contain monocistronic as well as polycistronic transcripts, several of which contain a conserved sequence (TATAYT) that serves as their putative RpoD ( 70 ) recognition element and is essential for their expression (14). L. pneumophila contains homologs of at least six sigma factors (RpoD, RpoH, RpoF, RpoE, RpoS, and RpoN) (14).…”

Section: Discussionmentioning

confidence: 99%

Regulation of Type IV Secretion Apparatus Genes during Ehrlichia chaffeensis Intracellular Development by a Previously Unidentified Protein

2008

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The type IV secretion (T4S) system is critical for the virulence of several pathogens. In the rickettsial pathogen Ehrlichia chaffeensis, the virBD genes are split into two operons, the virB3-virB6 (preceded by sodB) and virB8-virD4 operons. Between these two operons, there are duplications of virB4, virB8, and virB9. In this study we found that transcription of all five loci was downregulated prior to the release of E. chaffeensis from host THP-1 cells and was upregulated at the initiation of exponential growth. Electrophoretic mobility shift assays revealed an E. chaffeensis-encoded protein that specifically bound to the promoter regions upstream of the virBD loci. The protein was purified from the bacterial lysate by affinity chromatography using a biotinylated promoter region upstream of sodB. Mass spectrometry identified the protein as an E. chaffeensis 12.3-kDa hypothetical protein, which was designated EcxR. Recombinant EcxR bound to the promoter regions upstream of five individual virBD loci. EcxR also activated transcription of all five virBD loci in lacZ reporter constructs. The expression of ecxR was positively autoregulated by EcxR. These results suggest that the five virBD loci are coordinately regulated by EcxR to allow developmental stage-specific expression of the T4S system in E. chaffeensis.Ehrlichia chaffeensis is a gram-negative, obligately intracellular bacterium that causes human monocytic ehrlichiosis, an emerging tick-borne zoonosis (10, 23). E. chaffeensis manipulates host monocytes/macrophages throughout its intracellular developmental cycle (25), and this bacterium has a biphasic developmental cycle in mammalian cells that alternates between a small "dense-core cell" (DC) and a large "reticulate cell" (RC), as defined by morphological features, differential surface protein expression, and infectivity (34). The presence of biphasic developmental stages which differ in cell size, infectivity, and the expression of surface protein VirB9 of the type IV secretion (T4S) apparatus has been demonstrated for Anaplasma phagocytophilum, which is closely related to E. chaffeensis (21). The ability to perform the phenotypic switch is likely important for adaptation of the bacterium to harsh extracellular conditions and to initiation of infection, survival, and replication in a new host cell. However, little is known about the mechanisms regulating the developmental cycle of members of the genera Ehrlichia and Anaplasma.Genes encoding the T4S apparatus, the virBD loci, are found in members of the order Rickettsiales, including E. chaffeensis and A. phagocytophilum (17,22). The T4S apparatus of gramnegative bacteria is a transmembrane channel composed of multiple conserved proteins that transport macromolecules across the membrane into eukaryotic target cells in an ATPdependent manner. The T4S system is a critical determinant for virulence in several gram-negative pathogens, such as Agrobacterium tumefaciens, Legionella pneumophila, Helicobacter pylori, and Brucella abortus, because it delivers effec...

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Effector Translocation by the Legionella Dot/Icm Type IV Secretion System

Qiu

Luo

2013

Current Topics in Microbiology and Immunology

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Legionella pneumophila is an opportunistic pathogen responsible for Legionnaires' disease. This bacterium survives and replicates within phagocytes by bypassing their bactericidal activity. Intracellular replication of L. pneumophila requires the Dot/Icm type IV secretion system made of approximately 27 proteins that presumably traverses the bacterial and phagosomal membranes. The perturbation of the host killing ability largely is mediated by the collective functions of the protein substrates injected into host cells via the Dot/Icm transporter. Proper protein translocation by Dot/Icm is determined by a number of factors, including signals recognizable by the translocator, chaperones that may facilitate the proper folding of substrates and transcriptional regulation and protein stability that determine the abundance and temporal transfer of the substrates. Although a large number of Dot/Icm substrates have been identified, investigation to understand the translocation is ongoing. Here we summarized the recent advancements in our understanding of the factors that determine the protein translocation activity of the Dot/Icm transporter.

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

Cited by 46 publications

References 55 publications

Characterization of theicmHandicmFGenes Required forLegionella pneumophilaIntracellular Growth, Genes That Are Present in Many Bacteria Associated with Eukaryotic Cells

Characterization of theicmHandicmFGenes Required forLegionella pneumophilaIntracellular Growth, Genes That Are Present in Many Bacteria Associated with Eukaryotic Cells

Regulation of Type IV Secretion Apparatus Genes during Ehrlichia chaffeensis Intracellular Development by a Previously Unidentified Protein

Effector Translocation by the Legionella Dot/Icm Type IV Secretion System

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