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

Zusman, Tal; Feldman, Michal; Halperin, Einat; Segal, G. M.

doi:10.1128/iai.72.6.3398-3409.2004

Cited by 50 publications

(57 citation statements)

References 72 publications

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“…However, inactivation of three other dot/icm genes-icmF, dotU, and icmR-did suppress loss of dotL (Fig. 6), even though loss of these genes caused only a partial inhibition of growth in permissive hosts (12,53,54,62,68). These results indicate that, although inactivation of the majority of the dot/icm genes can suppress the lethality caused by loss of dotL, there is specificity to the suppression.…”

Section: Figmentioning

confidence: 68%

The DotL Protein, a Member of the TraG-Coupling Protein Family, Is Essential for Viability ofLegionella pneumophilaStrain Lp02

et al. 2005

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Legionella pneumophila is able to survive inside phagocytic cells by an internalization route that bypasses fusion of the nascent phagosome with the endocytic pathway to allow formation of a replicative phagosome. The dot/icm genes, a major virulence system of L. pneumophila, encode a type IVB secretion system that is required for intracellular growth. One Dot protein, DotL, has sequence similarity to type IV secretion system coupling proteins (T4CPs). In other systems, coupling proteins are not required for viability of the organism. Here we report the first example of a strain, L. pneumophila Lp02, in which a putative T4CP is essential for viability of the organism on bacteriological media. This result is particularly surprising since the majority of the dot/icm genes in Lp02 are dispensable for growth outside of a host cell, a condition that does not require a functional Dot/Icm secretion complex. We were able to isolate suppressors of the ⌬dotL lethality and found that many contained mutations in other components of the Dot/Icm secretion system. A systematic analysis of dot/icm deletion mutants revealed that the majority of them (20 of 26) suppressed the lethality phenotype, indicating a partially assembled secretion system may be the source of ⌬dotL toxicity in the wild-type strain. These results are consistent with a model in which the DotL protein plays a role in regulating the activity of the L. pneumophila type IV secretion apparatus.The gram-negative bacterium Legionella pneumophila is the causative agent of a potentially fatal form of pneumonia called Legionnaires' disease. L. pneumophila is found in freshwater environments, where it parasitizes many different species of protozoa (17). Humans become infected with L. pneumophila by inhaling aerosols generated from contaminated water sources. Upon entry into the human lung, L. pneumophila is internalized into bactericidal, alveolar macrophages. In contrast to phagosomes bearing most bacterial species, the compartment harboring L. pneumophila does not traffic into the lysosomal network and is not significantly acidified in the first few hours after uptake (26,27). Instead, the phagosome interacts with early secretory vesicles at endoplasmic reticulum exit sites (29) and then undergoes a series of maturation events in which it sequentially associates with small vesicles, mitochondria, and eventually becomes surrounded by the rough endoplasmic reticulum (25, 60). Formation of this specialized compartment, called a "replicative phagosome," allows the microorganism to grow intracellularly (25, 28). Later in the infective cycle, a majority of the replicative phagosomes fuse with acidified compartments containing late endocytic markers, and this is believed to play an important role in the replicative cycle of this pathogen prior to exit from its host cell (59).The key to L. pneumophila's virulence is its ability to form a replicative phagosome, since mutants defective in this trait cannot replicate inside host cells and are thus unable to cause disease (24,26...

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Section: Figmentioning

confidence: 68%

The DotL Protein, a Member of the TraG-Coupling Protein Family, Is Essential for Viability ofLegionella pneumophilaStrain Lp02

et al. 2005

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“…6, in trans expression of the cloned dsbB gene provided nearly complete complementation of the virulence defect in three different cell types. Further analysis showed that the LD 50 was 60.25 CFU, which is comparable to the wild-type LD 50 (66.25 CFU).…”

Section: Each F Novicida Mutant Harbored a Single Transposon Insertionmentioning

confidence: 79%

“…Based on its in vitro growth defect, comparatively low LD 50 , relative lack of intracellular attenuation, and questionable dissemination patterns, we felt that the carB mutant was not a strong enough candidate to include in further development of a vaccine against tularemia, and therefore we did not attempt to complement the carB gene.…”

Section: Each F Novicida Mutant Harbored a Single Transposon Insertionmentioning

confidence: 99%

AttenuatedFrancisella novicidaTransposon Mutants Protect Mice against Wild-Type Challenge

et al. 2006

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Francisella tularensis is the bacterial pathogen that causes tularemia in humans and a number of animals. To date, there is no approved vaccine for this widespread and life-threatening disease. The goal of this study was to identify F. tularensis mutants that can be used in the development of a live attenuated vaccine. We screened F. novicida transposon mutants to identify mutants that exhibited reduced growth in mouse macrophages, as these cells are the preferred host cells of Francisella and an essential component of the innate immune system. This approach yielded 16 F. novicida mutants that were 100-fold more attenuated for virulence in a mouse model than the wild-type parental strain. These mutants were then tested to determine their abilities to protect mice against challenge with high doses of wild-type bacteria. Five of the 16 attenuated mutants (with mutations corresponding to dsbB, FTT0742, pdpB, fumA, and carB in the F. tularensis SCHU S4 strain) provided mice with protection against challenge with high doses (>8 ؋ 10 5 CFU) of wild-type F. novicida. We believe that these findings will be of use in the design of a vaccine against tularemia.

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“…dotU and icmF mutants have similar intracellular growth phenotypes, i.e. partially defective in replication within macrophages (Sexton et al, 2004;Zusman et al, 2004), which suggested that the DotU and IcmF proteins worked together. Furthermore, the lack of IcmF resulted in a reduced level Fig.…”

Section: The Dotu/icmf Paradigmmentioning

confidence: 89%

The bacterial type VI secretion machine: yet another player for protein transport across membranes

2008

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

Cited by 50 publications

References 72 publications

The DotL Protein, a Member of the TraG-Coupling Protein Family, Is Essential for Viability ofLegionella pneumophilaStrain Lp02

The DotL Protein, a Member of the TraG-Coupling Protein Family, Is Essential for Viability ofLegionella pneumophilaStrain Lp02

AttenuatedFrancisella novicidaTransposon Mutants Protect Mice against Wild-Type Challenge

The bacterial type VI secretion machine: yet another player for protein transport across membranes

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