High and novel genetic diversity of Francisella tularensis in Germany and indication of environmental persistence.

In Germany tularemia is a re-emerging zoonotic disease. Therefore, we investigated wild animals and environmental water samples for the presence and phylogenetic diversity of Francisella tularensis in the poorly studied Berlin/Brandenburg region. The phylogenomic analysis of three isolates from wild animals revealed three new subclades within the phylogenetic tree of F. tularensis [B.71 from a raccoon dog (Nyctereutes procyonoides); B.74 from a red fox (Vulpes vulpes), and B.75 from a Eurasian beaver (Castor fiber albicus)]. The results from histological, PCR, and genomic investigations on the dead beaver showed that the animal suffered from a systemic infection. Indications were found that the bacteria were released from the beaver carcass into the surrounding environment. We demonstrated unexpectedly high and novel phylogenetic diversity of F. tularensis in Germany and the fact that the bacteria persist in the environment for at least one climatic season. These findings support a broader host species diversity than previously known regarding Germany. Our data further support the assumption derived from previous serological studies of an underestimated frequency of occurrence of the pathogen in the environment and in wild animals. F. tularensis was isolated from animal species not previously reported as natural hosts in Germany.

Variable genetic element typing: a quick method for epidemiological subtyping of Legionella pneumophila.

A total of 57 isolates of Legionella pneumophila were randomly selected from the German National Legionella strain collection and typed by monoclonal antibody subgrouping, seven-gene locus sequence-based typing (SBT) scheme and a newly developed variable element typing (VET) system based on the presence or absence of ten variable genetic elements. These elements were detected while screening a genomic library of strain Corby, as well as being taken from published data for PAI-1 (pathogenicity island) from strain Philadelphia. Specific primers were designed and used in gel-based polymerase chain reaction (PCR) assays. PCR amplification of the mip gene served as a control. The end-point was the presence/absence of a PCR product on an ethidium bromide-strained gel. In the present study, the index of discrimination was somewhat lower than that of the SBT (0.87 versus 0.97). Nevertheless, the results obtained showed as a 'proof of principle' that this simple and quick typing assay might be useful for the epidemiological characterisation of L. pneumophila strains.

The expression of the flagellum of Legionella pneumophila is modulated by different environmental factors.

Legionella pneumophila, the aetiologic agent of legionnaires' disease, contains a single, monopolar flagellum which is composed of one major subunit, the FlaA protein. Expression studies using a reporter gene fusion of the flaA promoter with the luxAB gene revealed that the flaA expression is not only temperature regulated but is also influenced by the growth phase, the viscosity and the osmolarity of the medium, and by amino acids.

Outer sheath associated proteins of the oral spirochete Treponema maltophilum.

We recently cloned the major outer membrane protein of Treponema maltophilum [Heuner, K., Choi, B.K., Schade, R., Moter, A., Otto, A., Göbel, U.B., J. Bacteriol. 181, 1025-1029]. Here we report the localization of the major sheath protein (Msp)A protein in T. maltophilum by immunogold electron microscopy and its expression. Northern blot analysis revealed that mspA is expressed constitutively as a monocistronic unit. The transcription initiation site of the mspA gene was identified by primer extension analysis. A further screening of a genomic library of T. maltophilum with an anti-outer membrane fraction antibody was done. We were able to clone DNA regions of T. maltophilum encoding putative sugar transport operons and putative outer membrane proteins of this oral treponeme which has a high prevalence in periodontal lesions.

Proteolytic activity among various oral Treponema species and cloning of a prtP-like gene of Treponema socranskii subsp. socranskii.

The proteolytic activity of 11 treponemal strains representing different phylogenetic groups was investigated by SDS-polyacrylamide gel electrophoresis with copolymerised casein, gelatin and fibrinogen as substrates. The activity was specified to be trypsin- and chymotrypsin-like by the cleavage of synthetic substrates BAPNA and SAAPFNA, respectively. Nine strains degrade casein and the synthetic substrate BAPNA. Chymotrypsin-like activity specifically inhibited by phenylmethylsulfonyl fluoride was found in four treponemes. Southern blot analysis using a Treponema socranskii subsp. socranskii-specific prtP probe confirmed the presence of prtP homologous genes in these four strains. The internal fragments of the chymotrypsin-like protease genes were cloned and sequenced after PCR amplification. Here we report the cloning of the complete prtP-like gene of T. socranskii subsp. socranskii, an organism shown to possess epidemiologic relevance in periodontitis.

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

Gene expression in Legionella pneumophila, the etiological agent of Legionnaires' disease, can be controlled by alternative forms of RNA polymerase programmed by distinct sigma factors. To understand the regulation of L. pneumophila flagellin expression, we cloned the sigma factor (FliA) of RNA polymerase responsible for the transcription of the flagellin gene, flaA. FliA is a member of the sigma28 class of alternative sigma factors identified in several bacterial genera. The gene fliA has been isolated from an expression library of L. pneumophila isolate Corby in Escherichia coli K-12. This library was transformed into a fliA mutant of E. coli K-12 containing a plasmid carrying the L. pneumophila-specific flaA promoter fused to the reporter gene luxAB. Screening the obtained transformants for luciferase activity, we isolated the major part of the fliA gene on a 1.64-kb fragment. This fragment was sequenced and used for reverse PCR in order to recover the complete fliA gene. The resulting 1.03-kb fragment was shown to contain the entire fliA gene. L. pneumophila FliA has 55 and 43% amino acid identity with the homologous sequences of Pseudomonas aeruginosa and E. coli. Furthermore, the L. pneumophila fliA gene was able to restore the flagellation and the motility defect of an E. coli fliA mutant. This result suggests that the L. pneumophila sigma28 protein can bind to the E. coli core RNA polymerase to direct transcription initiation from the flaA-specific promoter.

Cloning and characterization of a Legionella pneumophila-specific gene encoding a member of the LysR family of transcriptional regulators.

Flagellin gene regulation in Legionella pneumophila is modulated by various environmental factors. The expression of the virulent phenotype seems to be linked genetically to flagellum expression. To better understand the mechanisms of flagellin gene expression in L. pneumophila (Lp), we screened a pool of plasmids from a L. pneumophila Corby genomic library for the ability to prevent or reduce luciferase activity in the Escherichia coli strain YK410, which harbours a Lp-pflaA-luxAB fusion. We cloned a DNA fragment encoding the N-terminal part of a protein with significant similarity to members of the LysR family of transcriptional regulators (LTTRs). The entire gene, cloned by inverse PCR, was named flaR. It encodes a protein of 302 amino acids, and computer-assisted analysis of the amino acid sequence revealed a helix-turn-helix motif located near the N-terminus of the protein. The FlaR protein exhibits 21-31% identity to various LTTRs. Furthermore, gel retardation experiments indicate that the FlaR protein is able to bind to its own promoter region and, to a lesser extent, to the flaA promoter of L. pneumophila. The flaR promoter region contains putative LysR binding motifs and two putative Fur boxes. Taken together, these results indicate that FlaR is a DNA-binding protein which belongs to the LTTR family. Southern analysis with a L. pneumophila Corby-specific flaR probe revealed homologous genes in various L. pneumophila strains, but not in the 12 nonpneumophila strains tested so far.

Flagellum of Legionella pneumophila positively affects the early phase of infection of eukaryotic host cells.

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.

Cloning and characterization of a gene (mspA) encoding the major sheath protein of Treponema maltophilum ATCC 51939(T).

The major sheath protein-encoding gene (mspA) of the oral spirochete Treponema maltophilum ATCC 51939(T) was cloned by screening a genomic library with an anti-outer membrane fraction antibody. The mspA gene encodes a precursor protein of 575 amino acids with a predicted molecular mass of 62.3 kDa, including a signal peptide of 19 amino acids. The native MspA formed a heat-modifiable, detergent- and trypsin-stable complex which is associated with the outer membrane. Hybridization with an mspA-specific probe showed no cross-reactivity with the msp gene from Treponema denticola.

Treponema brennaborense sp. nov., a novel spirochaete isolated from a dairy cow suffering from digital dermatitis.

A novel Treponema species was isolated from an ulcerative lesion of a cow suffering from digital dermatitis (DD), a disease which causes painful ulcerations along the coronary band. Among other anaerobic bacteria, high numbers of spirochaetes have been regularly found in DD lesions. Here data are presented of a spirochaete isolated from a DD ulcer. By chemotaxonomy, protein analysis and comparative 16S rDNA sequence analysis this isolate was classified as a treponeme that differed from all Treponema species described previously. The only isolate, DD5/3T, for which the name Treponema brennaborense is proposed, is designated the type strain of the novel species. The strain is a small, highly motile spirochaete that has two periplasmic flagella, one flagellum being attached at each cell pole. Strain DD5/3T exhibits alpha-glucosidase and N-acetyl-beta-glucosaminidase activity and growth is inhibited by rabbit serum. T. brennaborense was phylogenetically most closely related (89.5% 16S rRNA similarity) to Treponema maltophilum, an oral spirochaete isolated from a periodontitis patient.

Cloning and genetic characterization of the flagellum subunit gene (flaA) of Legionella pneumophila serogroup 1.

The gene flaA, encoding the flagellum subunit protein of Legionella pneumophila serogroup 1, has been isolated from an expression library of L. pneumophila isolate Corby in Escherichia coli K-12 by using an antiflagellin specific polyclonal antiserum. DNA sequence analysis of the flaA gene revealed the presence of a 1,428-bp open reading frame encoding a protein of 475 amino acids with an apparent molecular mass of 48 kDa that is expressed independently of an E. coli vector promoter. Peptide sequencing of the N terminus of the isolated flagellum subunit protein confirmed that this open reading frame encodes the flagellin. By comparing the FlaA amino acid sequence with those of flagellins of various other bacteria, high degrees of homology in the N-terminal and C-terminal amino acids could be observed. The flaA-specific mRNA was determined to be 1.6 kb in size, the expected size of a monocistronic mRNA. Temperature-dependent expression of flagellin was found to be regulated at the transcriptional level. Sequence analysis and primer extension experiments indicated that the transcription of the gene flaA is directed by a sigma 28-like RpoF-FliA factor. By using fliA and fliA+ E. coli K-12 mutants, it was shown that flaA expression in E. coli required the sigma 28 factor. A flaA-specific DNA probe hybridizes with genomic DNA isolated from L. pneumophila and with most of the genomic DNAs from non-L. pneumophila Legionella strains. Two L. pneumophila strains and isolates of Legionella bozemanii and Legionella feeleii (serogroup 1) carry flaA-specific sequences but were not able to produce flagella.