Intracellular proliferation of S. aureus in osteoblasts and effects of rifampicin and gentamicin on S. aureus intracellular proliferation and survival.

Staphylococcus aureus is the most clinically relevant pathogen regarding implant-associated bone infection and its capability to invade osteoblasts is well known. The aim of this study was to investigate firstly whether S. aureus is not only able to invade but also to proliferate within osteoblasts, secondly to delineate the mechanism of invasion and thirdly to clarify whether rifampicin or gentamicin can inhibit intracellular proliferation and survival of S. aureus. The SAOS-2 osteoblast-like cell line and human primary osteoblasts were infected with S. aureus EDCC5055 and S. aureus Rosenbach 1884. Both S. aureus strains were able to invade efficiently and to proliferate within human osteoblasts. Immunofluorescence microscopy showed intracellular invasion of S. aureus and transmission electron microscopy images could demonstrate bacterial division as a sign of intracellular proliferation as well as cytosolic bacterial persistence. Cytochalasin D, the major actin depolymerisation agent, was able to significantly reduce S. aureus invasion, suggesting that invasion was enabled by promoting actin rearrangement at the cell surface. 7.5 µg/mL of rifampicin was able to inhibit bacterial survival in SAOS-2 cells with almost complete elimination of bacteria after 4 h. Gentamicin could also kill intracellular S. aureus in a dose-dependent manner, an effect that was significantly lower than that observed using rifampicin. In conclusion, S. aureus is not only able to invade but also to proliferate in osteoblasts. Invasion seems to be associated with actin rearrangement at the cell surface. Rifampicin is effective in intracellular eradication of S. aureus whereas gentamicin only poorly eliminates intracellularly replicating bacteria.

Generation and functional characterization of recombinant Porphyromonas gingivalis W83 FimA.

Porphyromonas gingivalis (P. gingivalis) is regarded as a keystone pathogen in destructive periodontal diseases. It expresses a variety of virulence factors, amongst them fimbriae that are involved in colonization, invasion, establishment and persistence of the bacteria inside the host cells. The fimbriae also were demonstrated to affect the host immune-response mechanisms. The major fimbriae are able to bind specifically to different host cells, amongst them peripheral blood monocytes. The interaction of these cells with fimbriae induces release of cytokines such as interleukin-1 (IL-1), IL-6, and tumor necrosis factor-α (TNF-α). The aim of this study was to generate recombinant major FimA protein from P. gingivalis W83 fimbriae and to prove its biological activity. FimA of P. gingivalis W83 was amplified from chromosomal DNA, cloned in a vector and transferred into Listeria innocua. (L. innocua).The expressed protein was harvested and purified using FPLC via a His trap HP column. The identity and purity was demonstrated by gel-electrophoresis and mass-spectrometry. The biological activity was assessed by stimulation of human oral epithelial cells and peripheral blood monocytes with the protein and afterwards cytokines in the supernatants were quantified by enzyme linked immunosorbent assay (ELISA) and cytometric bead array. Recombinant FimA could successfully be generated and purified. Gel-electrophoresis and mass-spectrometry confirmed that the detected sequences are identical with FimA. Stimulation of human monocytes induced the release of high concentrations of IL-1ß, IL-6, IL-10 and TNF-α by these cells. In conclusion, a recombinant FimA protein was established and its biological activity was proven. This protein may serve as a promising agent for further investigation of its role in periodontitis and possible new therapeutic approaches.

[Update: invasive fungal infections: Diagnosis and treatment in surgical intensive care medicine]. / Update: invasive Pilzinfektionen: Diagnose und Therapie in der operativen Intensivmedizin.

Fungal infections are of great relevance in surgical intensive care and Candida species represent the predominant part of fungal pathogens. Invasive aspergillosis is also relevant especially in patients with chronic pulmonary diseases. It is crucial for therapy success to begin adequate antifungal treatment at an early stage of the disease. Risk stratification of individual patient symptoms is essential for therapy timing. In case of suspected or proven candida infection, fluconazole is the agent of choice when the patient is clinically stable and no azoles have been administrated in advance and the local epidemiology makes azol resistance unlikely. For clinically instable patients with organ dysfunction the echinocandins serve as primary therapy because of their broad spectrum and reasonable safety profile. Due to a relevant proportion of azole resistant Candida species, susceptibility testing should be done routinely. Depending on the species detected de-escalating to an azole is feasible if organ dysfunctions have resolved. An invasive aspergillosis is primarily treated with voriconazole.

Comparative genomics of Listeria species.

Listeria monocytogenes is a food-borne pathogen with a high mortality rate that has also emerged as a paradigm for intracellular parasitism. We present and compare the genome sequences of L. monocytogenes (2,944,528 base pairs) and a nonpathogenic species, L. innocua (3,011,209 base pairs). We found a large number of predicted genes encoding surface and secreted proteins, transporters, and transcriptional regulators, consistent with the ability of both species to adapt to diverse environments. The presence of 270 L. monocytogenes and 149 L. innocua strain-specific genes (clustered in 100 and 63 islets, respectively) suggests that virulence in Listeria results from multiple gene acquisition and deletion events.

Hidden pathogens uncovered: metagenomic analysis of urinary tract infections.

Urinary tract infections (UTIs) are the most common kidney and urologic diseases in industrial nations and are usually caused through faecal contamination of the urinary tract. In this study, we have examined 1449 urine specimens both by culture and by PCR. The majority of UTIs examined were caused by Escherichia coli (35.15%), followed by miscellaneous bacteria (23.03%), and by Enterococcus faecalis (19.39%). A large fraction of fastidious and anaerobic bacteria (22.43%) was not detected under culture conditions but only by using PCR. This group of bacteria evade the standard culture conditions used in routine diagnostic laboratories examining urine specimens. The molecular approach used broad-range 16S rDNA PCR, denaturing high-performance liquid chromatography analysis, sequencing, and bioinformatic analysis to uncover these 'hidden' pathogens and is recommended in particular when examining leukocyte esterase-positive and culture-negative urinary tract specimens.

Internalins from the human pathogen Listeria monocytogenes combine three distinct folds into a contiguous internalin domain.

Listeria monocytogenes is an opportunistic, food-borne human and animal pathogen. Host cell invasion requires the action of the internalins A (InlA) and B (InlB), which are members of a family of listerial cell-surface proteins. Common to these proteins are three distinctive N-terminal domains that have been shown to direct host cell-specific invasion for InlA and InlB. Here, we present the high-resolution crystal structures of these domains present in InlB and InlH, and show that they constitute a single "internalin domain". In this internalin domain, a central LRR region is flanked contiguously by a truncated EF-hand-like cap and an immunoglobulin (Ig)-like fold. The extended beta-sheet, resulting from the distinctive fusion of the LRR and the Ig-like folds, constitutes an adaptable concave interaction surface, which we propose is responsible for the specific recognition of the host cellular binding partners during infection.

Physical and genetic map of the Listeria monocytogenes EGD serotype 1/2a chromosome.

Listeria monocytogenes is a facultative intracellular pathogen responsible for both invasive and non-invasive food-borne illness in animals and humans. In this study, macrorestriction analysis following pulsed-field gel electrophoresis was used to show that Listeria monocytogenes serovar 1/2a strain EGD has a single chromosome containing eight NotI fragments of 1100, 850, 365, 320, 275, 40, 30 and 20 kb in size and 11 AscI fragments of 860, 470, 410, 360, 320, 250, 110, 80, 50, 30 and 20 kb. The total genome therefore comprises 3000 +/- 50 kb. The creation of a physical and genetic map of the Listeria genome was achieved by generating NotI linking clones and their use in subsequent hybridisation analysis. Using isogenic mutants harbouring additional artificial NotI restriction sites, we were able to precisely map the positions of all currently known virulence genes on the chromosome.

Subinhibitory concentrations of beta-lactams and other cell-wall antibiotics inhibit listeriolysin production by Listeria monocytogenes.

In the present study we tested the ability of beta-lactam antibiotics and other cell-wall antibiotics to inhibit the production of listeriolysin which is the main virulence factor of L. monocytogenes. The amount of listeriolysin produced was measured in the supernatants with a sensitive hemolysin assay and as beta-galactosidase expression from the listeriolysin promoter. When tested in concentrations that did not affect growth of the bacteria, all beta-lactam antibiotics and all other cell-wall antibiotics tested were able to reduce the listeriolysin production in at least one of the tests used. Yet, no change in beta-galactosidase activity was detected in a strain harboring a control beta-galactosidase fusion. We therefore demonstrate for the first time that subinhibitory concentrations of antibiotics specifically reduce the production of a virulence factor of L. monocytogenes.

Bioinformatics in medical practice: what is necessary for a hospital?

Building bioinformatic facilities for a university hospital is pretty similar to using standardized building blocks to construct a house. Starting with the intention to built a dwelling house, a factory or just a shelter the architect draws a construction plan and determines the material to be used. In general, the building is then constructed by the workmen following exactly the plan. However, for particular reasons, minor alterations may be needed to improve the construction of the building. Here we use the metaphor of constructing a "bio-informatics building" to describe the steps needed to support the daily tasks of a university hospital medical microbiology department which uses genomic methods quite extensively for pathogen identification. Today the Giessen "bioinformatics building" is not yet complete but we have been able to lay solid foundations and erect the ground floor which is functional already. Using a combination of standard tools, internet accessible genomic databases and some own software tools we can support genome sequencing from the raw sequence to pathogen identification.

Multiple ST clonal complexes, with a predominance of ST131, of Escherichia coli harbouring blaCTX-M-15 in a tertiary hospital in Tanzania.

The molecular epidemiology of 32 non-duplicate, CTX-M-15 extended-spectrum beta-lactamase (ESBL)-producing Escherichia coli strains, isolated from clinical samples, was investigated. Multilocus sequence typing revealed multiple sequence type clonal complexes: ST131 (12), ST405 (4), ST638 (3), ST38 (2), ST827 (2), ST224 (1), ST648 (1), ST46 (1) and two new sequence type clonal complexes (1845 and 1848) in 22 pulsed field gel electrophoresis clusters. The bla(CTX-M-15) gene was located on conjugative IncF plasmids. This is the first report of the worldwide emerging clonal complex ST131 linked to bla(CTX-M-15) in Tanzania and demonstrates the need for constant surveillance in developing countries to prevent the spread of these multiresistant isolates.

Genome organization and the evolution of the virulence gene locus in Listeria species.

The chromosomal region of Listeria monocytogenes harboring the gene cluster prfA-plcA-hly-mpl-actA-plcB (virulence gene cluster; vgc) harbors virulence genes critical for the survival of the bacteria following infection. Previous studies have implicated it as an ancestral pathogenicity island, derivatives of which are present in the species L. ivanovii and L. seeligeri, but absent in non-pathogenic species such as L. innocua. We cloned the corresponding region from L. innocua and L. welshimeri and compared its sequences to those from L. monocytogenes, L. ivanovii and L. seeligeri. The analysis allowed exact determination of delineation and size of the vgc and suggests that these genes may have been acquired by bacteriophage transduction. Thus, here we present an alternative view of the evolution of Listeria spp. and suggest that L. monocytogenes may be the primordial species of this genus.

[Rapid and reliable detection of multiresistent Staphylococcus aureus (MRSA) by multiplex PCR]. / Schneller und zuverlässiger Nachweis multiresistenter Staphylococcus aureus (MRSA) durch Multiplex-PCR.

BACKGROUND AND OBJECTIVE: Staphylococci are widespread pathogens and are frequently associated with nosocomial infections. Many hospitals struggle with increasing amounts of methicillin-resistant Staphylococcus aureus (MRSA) which are "multiresistant" against all betalactam antibiotics. Often, applicable antibiotics for treatment are only glycopeptides like vancomycin and teicoplanin. In addition, MRSA infected patients require expensive intensive isolation measures and strict hygiene. To efficiently prevent dissemination of these pathogens rapid and reliable identification and a close collaboration between clinicians and microbiologists are required. The purpose of our study was to set up a rapid and reliable identification procedure for MRSA by the amplification of specific gene determinants by PCR in order to to efficiently support therapy and eradication of the pathogen. METHODS: 153 strains of staphylococci isolated from in-patients of the hospital of the Justus-Liebig University of Giessen were examined. The femB gene was used to differentiate between Staphylococcus aureus (S. aureus) and coagulase-negative staphylococci (CNS), a gene which allows the species-specific identification of methicillin-resistant (MRSA) and -susceptible S. aureus (MSSA). Additionally, MRSA harbor the mecA gene encoding methicillin-resistance, which is absent in MSSA strains. RESULTS: Using a multiplex PCR with femB and mecA gene-specific oligonucleotides MRSA strains were unequivocally detected within 3 hours. The femB gene was detected in all 102 strains of S. aureus but in none of the 51 CNS. The mecA determinant was detected in 12 S. aureus. Among these, 11 strains were phenotypically methicillin-resistant and one strain was susceptible. The methicillin-resistance of this particular mecA-positive/methicillin-susceptible strain (cryptic MRSA) was inducible by cultivation on agar plates supplemented with flucloxacillin. CONCLUSIONS: The described method specifically detects S. aureus and identifies phenotypical and cryptic MRSA. These cryptic MRSA are of particular relevance since they are undetectable using common phenotypically based detection methods. It is conceivable that the methicillin resistance of these strains is induced under antibiotic therapy with flucloxacillin and that the mec-encoded feature of methicillin-resistance can be transferred to previously methicillin-susceptible strains. Using the reliable detection of these strains by PCR, failure of flucloxacillin therapy is avoidable.

Molecular cloning, sequencing, and identification of a metalloprotease gene from Listeria monocytogenes that is species specific and physically linked to the listeriolysin gene.

The entire nucleotide sequence of an open reading frame located immediately downstream of the listeriolysin gene from a virulent Listeria monocytogenes serotype 1/2a strain was determined. The product of the open reading frame was 510 amino acids with a predicted molecular weight of 57,400. The deduced amino acid sequence of this open reading frame is highly similar to that of a family of secreted metalloproteases produced by various members of the genus Bacillus, of which thermolysin is the prototype. Immunoblots performed with specific antisera raised against thermolysin from Bacillus stearothermophilus allowed the detection of a 60-kDa polypeptide, corresponding to the pro-form of the protease, in culture supernatants of L. monocytogenes strains. In maxicell experiments, Escherichia coli recombinants harboring this open reading frame also specifically directed production of a 60-kDa protein. Protease activity was low to undetectable in both Listeria strains and E. coli recombinants. This is due to lack of processing of the inactive pro-form of the protease to its mature active form in both species. We have designated this gene mpl for metalloprotease of L. monocytogenes. The gene was present only in pathogenic L. monocytogenes strains, in which it was physically linked to the listeriolysin gene.

The expression of virulence genes in Listeria monocytogenes is thermoregulated.

The expression of listeriolysin, a major virulence factor of the gram-positive facultative intracellular pathogen Listeria monocytogenes, is positively regulated by a transcriptional activator, the prfA gene product. We had previously shown that mutations within the prfA gene lead to loss of listeriolysin production. In this communication, the regulation of expression of listeriolysin by a specific environmental condition, namely, temperature, was studied in wild-type strains of Listeria monocytogenes. We found that expression of the hemolysis phenotype was thermoregulated. A lisA::lacZ fusion was constructed, and its expression in the wild-type strain was studied at various growth temperatures. The results showed that the fusion beta-galactosidase activity was expressed only when cultures were grown at temperatures above 30 degrees C. This activity could be either specifically repressed or induced, depending on growth temperature. No change in activity was detected in a strain harboring a control beta-galactosidase fusion at the various growth temperatures tested. Northern (RNA) blot analysis of lisA-specific RNA transcripts showed that thermoregulation is manifested at the level of transcription. We also found that the transcription of other PrfA-regulated virulence genes in L. monocytogenes was similarly affected by growth temperature. Hence, as in other facultative intracellular pathogens, Shigella and Yersinia spp., temperature is an important cue in the induction of expression of virulence genes in L. monocytogenes. Our studies revealed that a higher level of regulation is imposed on the PrfA-mediated activation of virulence genes in pathogenic L. monocytogenes.

Detection of a gene encoding a phosphatidylinositol-specific phospholipase C that is co-ordinately expressed with listeriolysin in Listeria monocytogenes.

A phosphatidylinositol-specific phospholipase C (PI-PLC) that is unique to the pathogenic Listeria species L. monocytogenes and L. ivanovii has been detected. Deletion analysis performed with Escherichia coli recombinants expressing PI-PLC activity together with maxicell analysis showed that a 34 kDa polypeptide was responsible for this activity. Nucleotide sequencing revealed that the gene encoding this polypeptide comprises 317 amino acid residues with a 22-amino-acid signal peptide. This gene, designated pic for phosphatidylinositol-specific phospholipase C, is located back to back with the listeriolysin gene on the chromosome of L. monocytogenes where these genes are transcribed by divergent non-overlapping promoters. Expression of the pic gene is dependent on the product of the prfA gene, which also regulates expression of the listeriolysin gene in L. monocytogenes.

The ActA protein of Listeria monocytogenes acts as a nucleator inducing reorganization of the actin cytoskeleton.

Listeria monocytogenes, a facultative intracellular pathogen, employs actin and other microfilament-associated proteins to move through the host cell cytoplasm. Isogenic mutants of L. monocytogenes lacking the surface-bound ActA polypeptide no longer interact with cytoskeletal elements and are, as a consequence, non-motile (Domann et al., 1992, EMBO J., 11, 1981-1990; Kocks et al., 1992, Cell, 68, 521-531). To investigate the interaction of ActA with the microfilament system in the absence of other bacterial factors, the listerial actA gene was expressed in eukaryotic cells. Immunofluorescence studies revealed that the complete ActA, including its C-terminally located bacterial membrane anchor, colocalized with mitochondria in transfected cells. When targeted to mitochondria, the ActA polypeptide recruited actin and alpha-actinin to these cellular organelles with concomitant reorganization of the microfilament system. Removal of the internal proline-rich repeat region of ActA completely abrogated interaction with cytoskeletal components. Our results identify the ActA polypeptide as a nucleator of the actin cytoskeleton and provide the first insights into the molecular nature of such controlling elements in microfilament organization.

Detection of a prfA-independent promoter responsible for listeriolysin gene expression in mutant Listeria monocytogenes strains lacking the PrfA regulator.

Expression of listeriolysin, a major virulence factor of pathogenic Listeria monocytogenes, is positively regulated by the pleiotropic virulence regulator PrfA. In this study, we demonstrate that L. monocytogenes strains lacking the prfA regulator gene produce listeriolysin in small, albeit detectable, amounts when analyzed in a hemolysin assay and by immunoblots with listeriolysin-specific monoclonal antibodies. Transcriptional analysis revealed the existence of a PrfA-independent promoter that was responsible for the hemolytic activity expressed by these strains.

Expression of the Listeria monocytogenes EGD inlA and inlB genes, whose products mediate bacterial entry into tissue culture cell lines, by PrfA-dependent and -independent mechanisms.

Internalization of Listeria monocytogenes into nonphagocytic cell lines in vitro requires the products of the inlAB locus (J.-L. Gaillard, P. Berche, C. Frehel, E. Gouin, and P. Cossart, Cell 65:1127-1141, 1991). By generating isogenic mutants with a chromosomal in-frame deletion in either inlA or inlB, we have identified InlA and InlB as surface-bound proteins of L. monocytogenes with molecular weights of 88,000 and 65,000, respectively. These results were obtained with monoclonal antibodies raised against either protein and corroborated by N-terminal end sequencing of InlA and InlB. By immunoblot analysis, the production of both polypeptides was found to be strongly dependent on growth temperature and, particularly for InlB, on the presence of the PrfA regulator protein. Expression of InlA was not strictly dependent on the presence of the PrfA regulator protein. Transcription analysis of the inlAB locus revealed that the inlA gene was transcribed by several promoters, of which only one is PrfA dependent. This PrfA-dependent inlA promoter, which contains two base substitutions within its putative PrfA DNA-binding palindrome, is responsible for transcription of both inlA and inlB genes. A hitherto unrecognized promoter located 51 bp upstream of the GTG start codon of the inlB gene was also detected. Hence, inlA and inlB are transcribed both individually and in an operon by PrfA-dependent and -independent mechanisms. Tissue culture invasion assays employing various epithelial cell lines demonstrated that both InlA and InlB are required for invasion. In vivo studies using the mouse infection model revealed that both internalin mutants were attenuated for virulence.

Suitability of the prfA gene, which encodes a regulator of virulence genes in Listeria monocytogenes, in the identification of pathogenic Listeria spp.

The pathogenesis of listerial infections is complex and involves a number of virulence factors expressed by virulent Listeria species. We have recently described a regulator gene, prfA, that positively regulates the expression of a number of virulence factors in Listeria monocytogenes. When the prfA gene was used as a DNA probe, we found it to be extremely specific for the pathogenic species L. monocytogenes. No reaction was obtained with strains of all other species of this genus. By using this information, an oligonucleotide primer pair was developed that specifically amplifies the prfA gene in L. monocytogenes strains of all known serotypes.