Tobias A Oelschlaeger

Publications

• 6.63

  Impact points

  Modeling antibiotic and cytotoxic effects of the dimeric isoquinoline IQ-143 on metabolism and its regulation in Staphylococcus aureus, Staphylococcus epidermidis and human cells.

  Alexander Cecil, Carina Rikanović, Knut Ohlsen, Chunguang Liang, Jörg Bernhardt, Tobias A Oelschlaeger, Tanja Gulder, Gerhard Bringmann, Ulrike Holzgrabe, Matthias Unger, Thomas Dandekar

  Genome biology. 03/2011; 12(3):R24.

  Xenobiotics represent an environmental stress and as such are a source for antibiotics, including the isoquinoline (IQ) compound IQ-143. Here, we demonstrate the utility of complementary analysis of both host and pathogen datasets in assessing bacterial adaptation to IQ-143, a synthetic analog of th... [more] Xenobiotics represent an environmental stress and as such are a source for antibiotics, including the isoquinoline (IQ) compound IQ-143. Here, we demonstrate the utility of complementary analysis of both host and pathogen datasets in assessing bacterial adaptation to IQ-143, a synthetic analog of the novel type N,C-coupled naphthyl-isoquinoline alkaloid ancisheynine. Metabolite measurements, gene expression data and functional assays were combined with metabolic modeling to assess the effects of IQ-143 on Staphylococcus aureus, Staphylococcus epidermidis and human cell lines, as a potential paradigm for novel antibiotics. Genome annotation and PCR validation identified novel enzymes in the primary metabolism of staphylococci. Gene expression response analysis and metabolic modeling demonstrated the adaptation of enzymes to IQ-143, including those not affected by significant gene expression changes. At lower concentrations, IQ-143 was bacteriostatic, and at higher concentrations bactericidal, while the analysis suggested that the mode of action was a direct interference in nucleotide and energy metabolism. Experiments in human cell lines supported the conclusions from pathway modeling and found that IQ-143 had low cytotoxicity. The data suggest that IQ-143 is a promising lead compound for antibiotic therapy against staphylococci. The combination of gene expression and metabolite analyses with in silico modeling of metabolite pathways allowed us to study metabolic adaptations in detail and can be used for the evaluation of metabolic effects of other xenobiotics.
• 4.41

  Impact points

  E. coli Nissle 1917 Affects Salmonella adhesion to porcine intestinal epithelial cells.

  Peter Schierack, Sylvia Kleta, Karsten Tedin, Julius Tachu Babila, Sibylle Oswald, Tobias A Oelschlaeger, Rico Hiemann, Susanne Paetzold, Lothar H Wieler

  PloS one. 01/2011; 6(2):e14712.

  The probiotic Escherichia coli strain Nissle 1917 (EcN) has been shown to interfere in a human in vitro model with the invasion of several bacterial pathogens into epithelial cells, but the underlying molecular mechanisms are not known. In this study, we investigated the inhibitory effects of EcN on... [more] The probiotic Escherichia coli strain Nissle 1917 (EcN) has been shown to interfere in a human in vitro model with the invasion of several bacterial pathogens into epithelial cells, but the underlying molecular mechanisms are not known. In this study, we investigated the inhibitory effects of EcN on Salmonella Typhimurium invasion of porcine intestinal epithelial cells, focusing on EcN effects on the various stages of Salmonella infection including intracellular and extracellular Salmonella growth rates, virulence gene regulation, and adhesion. We show that EcN affects the initial Salmonella invasion steps by modulating Salmonella virulence gene regulation and Salmonella SiiE-mediated adhesion, but not extra- and intracellular Salmonella growth. However, the inhibitory activity of EcN against Salmonella invasion always correlated with EcN adhesion capacities. EcN mutants defective in the expression of F1C fimbriae and flagellae were less adherent and less inhibitory toward Salmonella invasion. Another E. coli strain expressing F1C fimbriae was also adherent to IPEC-J2 cells, and was similarly inhibitory against Salmonella invasion like EcN. We propose that EcN affects Salmonella adhesion through secretory components. This mechanism appears to be common to many E. coli strains, with strong adherence being a prerequisite for an effective reduction of SiiE-mediated Salmonella adhesion.
• 2.80

  Impact points

  Enterobacterial tumor colonization in mice depends on bacterial metabolism and macrophages but is independent of chemotaxis and motility.

  Jochen Stritzker, Stephanie Weibel, Carolin Seubert, Andreas Götz, Achim Tresch, Nico van Rooijen, Tobias A Oelschlaeger, Philip J Hill, Ivaylo Gentschev, Aladar A Szalay

  International journal of medical microbiology : IJMM. 11/2010; 300(7):449-56.

  Despite promising results and increasing attention in bacterial cancer therapy, surprisingly little is known about initial tumor colonization and the interaction between bacteria and surrounding tumor tissue. Here, we analyzed the role of chemotaxis, motility, and metabolism both in Escherichia coli... [more] Despite promising results and increasing attention in bacterial cancer therapy, surprisingly little is known about initial tumor colonization and the interaction between bacteria and surrounding tumor tissue. Here, we analyzed the role of chemotaxis, motility, and metabolism both in Escherichia coli and Salmonella enterica serovar Typhimurium strains upon intravenous injection into tumor-bearing mice. In contrast to previous models, we found that chemotaxis and motility do not play a significant role in tumor colonization and bacterial distribution within the tumor. Rather, the whole colonization and intratumoral migration process seems to be a passive mechanism that is influenced by the reticuloendothelial system of the host, by the tumor microenvironment and by the bacterial metabolism. These conclusions were supported by experimental data demonstrating that disruption of the basic branch of the aromatic amino acid biosynthetic pathway and depletion of macrophages, in contrast to flagellar mutations, led to significant changes in bacterial accumulation in tumors of live mice.

• Bacteria as tumor therapeutics?

  Tobias A Oelschlaeger

  Bioengineered bugs. 01/2010; 1(2):146-7.
• 2.80

  Impact points

  Mechanisms of probiotic actions - A review.

  Tobias A Oelschlaeger

  International journal of medical microbiology : IJMM. 09/2009;

  Probiotics are gaining more and more interest as alternatives for antibiotics or anti-inflammatory drugs. However, their mode of action is poorly understood. This review will present examples of probiotic actions from three general modes of actions into which probiotic effects can be classified. Pro... [more] Probiotics are gaining more and more interest as alternatives for antibiotics or anti-inflammatory drugs. However, their mode of action is poorly understood. This review will present examples of probiotic actions from three general modes of actions into which probiotic effects can be classified. Probiotics might modulate the host's immune system, affect other microorganisms directly or act on microbial products, host products or food components. What kind of effect(s) a certain probiotic executes depends on its metabolic properties, the molecules presented at its surface or on the components secreted. Even integral parts of the bacterial cell such as its DNA or peptidoglycan might be of importance for its probiotic effectiveness. The individual combination of such properties in a certain probiotic strain determines its specific probiotic action and as a consequence its effective application for the prevention and/or treatment of a certain disease.
• 4.21

  Impact points

  Genetic structure and distribution of the colibactin genomic island among Enterobacteriaceae.

  Johannes Putze, Claire Hennequin, Jean-Philippe Nougayrède, Wenlan Zhang, Stefan Homburg, Helge Karch, Marie-Agnés Bringer, Corinne Fayolle, Elisabeth Carniel, Wolfgang Rabsch, Tobias A Oelschlaeger, Eric Oswald, Christiane Forestier, Jörg Hacker, Ulrich Dobrindt

  Infection and immunity. 09/2009;

  A genomic island encoding the biosynthesis and secretion pathway of putative hybrid non-ribosomal peptide-polyketide colibactin has been recently described in Escherichia coli. Colibactin acts as a cyclomodulin and blocks the eukaryotic cell cycle. The origin and prevalence of the colibactin island ... [more] A genomic island encoding the biosynthesis and secretion pathway of putative hybrid non-ribosomal peptide-polyketide colibactin has been recently described in Escherichia coli. Colibactin acts as a cyclomodulin and blocks the eukaryotic cell cycle. The origin and prevalence of the colibactin island among enterobacteria are unknown. We therefore screened 1565 isolates of different genera and species related to the Enterobacteriaceae by PCR for the presence of this DNA element. The island was detected not only in E.coli, but also in Klebsiella pneumoniae, Enterobacter aerogenes and Citrobacter koseri isolates. It was highly conserved among these species and was always associated with the yersiniabactin determinant. Structural variations between individual strains were only observed in an intergenic region containing variable numbers of tandem repeats. In E.coli, the colibactin island was usually restricted to isolates of phylogenetic group B2 and inserted at the asnW tRNA locus. Interestingly, in K.pneumoniae, E.aerogenes, C.koseri and three E.coli strains of phylogenetic group B1, the functional colibactin determinant was associated with a genetic element similar to the integrative and conjugative elements ICEEc1 and ICEKp1 and to several enterobacterial plasmids. Different asn-tRNA genes served as chromosomal insertion sites of the ICE-associated colibactin determinant: asnU in the three E.coli strains of ECOR group B1, and different asn-tRNA loci in K.pneumoniae. The detection of the colibactin genes associated with an ICE-like element in several enterobacteria provides new insights into the spread of this gene cluster and its putative mode of transfer. Our results shed light on the mechanisms of genetic exchange between Enterobacteriaceae.
• 2.80

  Impact points

  Split immune response after oral vaccination of mice with recombinant Escherichia coli Nissle 1917 expressing fimbrial adhesin K88.

  Katharina A Remer, Marita Bartrow, Bianca Roeger, Heidrun Moll, Ulrich Sonnenborn, Tobias A Oelschlaeger

  International journal of medical microbiology : IJMM. 06/2009;

  Enterotoxigenic Escherichia coli (ETEC) are a leading cause of diarrhoea in piglets and newborn calves. Massive efforts have therefore been made to develop a vaccine for the induction of protective mucosal immunity against ETEC. Since it has been shown that the probiotic strain E. coli Nissle 1917 (... [more] Enterotoxigenic Escherichia coli (ETEC) are a leading cause of diarrhoea in piglets and newborn calves. Massive efforts have therefore been made to develop a vaccine for the induction of protective mucosal immunity against ETEC. Since it has been shown that the probiotic strain E. coli Nissle 1917 (EcN) can serve as a safe carrier for targeted delivery of recombinant molecules to the intestinal mucosa, we constructed the recombinant strain EcN pMut2-kanK88 (EcN-K88) stably expressing the determinant for the K88 fimbrial adhesin of ETEC on the bacterial surface. After oral application of EcN-K88 to mice for one week, EcN-K88 as well as wild-type EcN and EcN mock-transformed with the plasmid vector only could be detected in faecal samples for a minimum of 7 days after the last feeding, indicating that EcN can transiently colonise the murine intestine. Oral application of EcN-K88 resulted in significant IgG serum titres against K88 as early as 7 days after the initial feeding with EcN-K88, but no significant IgA titres. In contrast, we failed to detect any specific T cell responses towards the K88 antigen both in spleen and mesenteric lymph nodes. Although dendritic cells readily upregulated maturation and activation markers in response to K88 stimulation, accompanied by secretion of interleukin (IL)-12, IL-6, IL-10, and tumour necrosis factor, restimulation of T cells from mice having received EcN-K88 with K88-loaded dendritic cells did not result in detectable T cell proliferation and IL-2 secretion, but rather induced an IL-10 bias. While the serum antibody responses clearly demonstrate that K88 is recognized by the humoral immune system, our findings indicate that oral application of probiotic EcN expressing the K88 fimbrial adhesin does not induce a selective T cell response towards the antigen.
• 2.54

  Impact points

  Probiotic Escherichia coli Nissle 1917 Suppresses Allergen-Induced Th2 Responses in the Airways.

  Thomas Bickert, Claudia M Trujillo-Vargas, Matthias Duechs, Gisela Wohlleben, Tobias Polte, Gesine Hansen, Tobias A Oelschlaeger, Klaus J Erb

  International archives of allergy and immunology. 03/2009; 149(3):219-230.

  Background: Recent clinical trials, epidemiological studies and animal experiments have suggested that probiotics may help suppress the development of allergic responses. Objective: To investigate whether the application of the probiotic Escherichia coli strain Nissle 1917 (EcN) protects mice from d... [more] Background: Recent clinical trials, epidemiological studies and animal experiments have suggested that probiotics may help suppress the development of allergic responses. Objective: To investigate whether the application of the probiotic Escherichia coli strain Nissle 1917 (EcN) protects mice from developing ovalbumin (OVA)-specific T helper-2 responses in the airways. Methods: OVA-specific Th2 responses were induced by 2 intraperitoneal (i.p.) injections with OVA/alum followed by 1 intranasal (i.n.) challenge with OVA. EcN was given orally during the entire sensitization and challenge period, together with OVA/alum during the i.p. sensitizations, or i.n. before or during the airway challenge with OVA. Results: We found that when the bacteria were given together with OVA/alum airway eosinophilia, airway hyper-reactivity, goblet cell metaplasia and IL-5 levels in the bronchoalveolar lavage and mediastinal lymph node cell cultures were reduced. This effect was associated with increased numbers of IFN-gamma producing T helper-1 cells and IFN-gamma levels in the airways and strongly increased OVA-specific IgG(2a) titers in the serum. The suppressive effect on airway eosinophilia was dependent on IFN-gamma but not TLR-4. Applying EcN i.n. or orally did not reduce the development of allergen-specific Th2 responses. Conclusions: Our results suggest that EcN can inhibit the development of allergic responses when the bacteria are present at the site of Th2 cell priming and that this immunomodulatory effect is due to a shift from Th2 to Th1 response. The data support the hypothesis that probiotics may help reduce allergic responses and that EcN may also be used as adjuvant therapy to induce allergen-specific Th1 responses.
• 4.29

  Impact points

  Carbohydrate receptors of bacterial adhesins: implications and reflections.

  K Ohlsen, T A Oelschlaeger, J Hacker, A S Khan

  Topics in current chemistry. 01/2009; 288:17-65.

  Bacteria entering a host depend on adhesins to achieve colonization. Adhesins are bacterial surface structures mediating binding to host surficial areas. Most adhesins are composed of one or several proteins. Usually a single bacterial strain is able to express various adhesins. The adhesion type ex... [more] Bacteria entering a host depend on adhesins to achieve colonization. Adhesins are bacterial surface structures mediating binding to host surficial areas. Most adhesins are composed of one or several proteins. Usually a single bacterial strain is able to express various adhesins. The adhesion type expressed may influence host-, tissue or even cell tropism of Gram-negative and of Gram-positive bacteria. The binding of fimbrial as well as of afimbrial adhesins of Gram-negative bacteria to host carbohydrate structures (=receptors) has been elucidated in great detail. In contrast, in Gram-positives, most well studied adhesins bind to proteinaceous partners. Nevertheless, for both bacterial groups the binding of bacterial adhesins to eukaryotic carbohydrate receptors is essential for establishing colonization or infection. The characterization of this interaction down to the submolecular level provides the basis for strategies to interfere with this early step of infection which should lead to the prevention of subsequent disease. However, this goal will not be achieved easily because bacterial adherence is not a monocausal event but rather mediated by a variety of adhesins.
• 2.80

  Impact points

  Tumor-specific colonization, tissue distribution, and gene induction by probiotic Escherichia coli Nissle 1917 in live mice.

  Jochen Stritzker, Stephanie Weibel, Philip J Hill, Tobias A Oelschlaeger, Werner Goebel, Aladar A Szalay

  International journal of medical microbiology : IJMM. 07/2007; 297(3):151-62.

  Systemic administration of microorganisms into tumor-bearing mice revealed preferential accumulation in tumors in comparison to clearance in organs such as spleen and liver. Here we compared the efficiency of tumor-specific colonization of pathogenic Salmonella typhimurium strains 14028 and SL1344 t... [more] Systemic administration of microorganisms into tumor-bearing mice revealed preferential accumulation in tumors in comparison to clearance in organs such as spleen and liver. Here we compared the efficiency of tumor-specific colonization of pathogenic Salmonella typhimurium strains 14028 and SL1344 to the enteroinvasive Escherichia coli 4608-58 strain and to the attenuated Salmonella flexneri 2a SC602 strain, as well as to the uropathogenic E. coli CFT073, the non-pathogenic E. coli Top10, and the probiotic E. coli Nissle 1917 strain. All strains colonized and replicated in tumors efficiently each resulting in more than 1 x 10(8) colony-forming units per gram tumor tissue. Colonization of spleen and liver were significantly lower when E. coli strains were used in comparison to S. typhimurium and the non-pathogenic strains did not colonize those organs at all. Further investigation of E. coli Nissle 1917 showed that no drastic differences in colonization and amplification were seen when immunocompetent and immunocompromised animals were used, and we were able to show that E. coli Nissle 1917 replicates at the border of live and necrotic tumor tissue. We also demonstrated exogenously applied L-arabinose-dependent gene activation in colonized tumors in live mice. These findings will prepare the way for bacterium-mediated controlled protein delivery to solid tumors.
• 4.21

  Impact points

  Induction of human beta-defensin 2 by the probiotic Escherichia coli Nissle 1917 is mediated through flagellin.

  Miriam Schlee, Jan Wehkamp, Artur Altenhoefer, Tobias A Oelschlaeger, Eduard F Stange, Klaus Fellermann

  Infection and immunity. 06/2007; 75(5):2399-407.

  Human beta-defensin 2 (hBD-2) is an inducible antimicrobial peptide synthesized by the epithelium to counteract bacterial adherence and invasion. Proinflammatory cytokines, as well as certain bacterial strains, have been identified as potent endogenous inducers. Recently, we have found that hBD-2 in... [more] Human beta-defensin 2 (hBD-2) is an inducible antimicrobial peptide synthesized by the epithelium to counteract bacterial adherence and invasion. Proinflammatory cytokines, as well as certain bacterial strains, have been identified as potent endogenous inducers. Recently, we have found that hBD-2 induction by probiotic Escherichia coli Nissle 1917 was mediated through NF-kappaB- and AP-1-dependent pathways. The aim of the present study was to identify the responsible bacterial factor. E. coli Nissle 1917 culture supernatant was found to be more potent than the pellet, indicating a soluble or shed factor. Chemical analysis demonstrated the factor to be heat resistant and proteinase digestible. Several E. coli Nissle 1917 deletion mutants were constructed and tested for their ability to induce hBD-2 expression in Caco-2 cells. Deletion mutants for flagellin specifically exhibited an impaired immunostimulatory capacity. Reinsertion of the flagellin gene restored the induction capacity to normal levels. Isolated flagellin from E. coli Nissle 1917 and from Salmonella enterica serovar Enteritidis induced hBD-2 mRNA significantly in contrast to the flagellin of the apathogenic E. coli strain ATCC 25922. H1 flagellin antiserum abrogated hBD-2 expression induced by flagellin as well as E. coli Nissle 1917 supernatant, confirming that flagellin is the major stimulatory factor of E. coli Nissle 1917.
• 2.43

  Impact points

  Green fluorescent protein for detection of the probiotic microorganism Escherichia coli strain Nissle 1917 (EcN) in vivo.

  Michael Schultz, Sonja Watzl, Tobias A Oelschlaeger, Heiko C Rath, Claudia Göttl, Norbert Lehn, Jürgen Schölmerich, Hans-Jörg Linde

  Journal of microbiological methods. 07/2005; 61(3):389-98.

  Probiotic microorganisms are defined as viable nutritional agents conferring benefit to the health of the human host. Especially, Escherichia coli strain Nissle 1917 (EcN) was shown to be equally effective as mesalazine in the maintenance of remission in ulcerative colitis (UC). Presumably, the ther... [more] Probiotic microorganisms are defined as viable nutritional agents conferring benefit to the health of the human host. Especially, Escherichia coli strain Nissle 1917 (EcN) was shown to be equally effective as mesalazine in the maintenance of remission in ulcerative colitis (UC). Presumably, the therapeutic effect of EcN is linked to the presence of the strain in the region of interest; however, it remains difficult to follow the orally administered strain on its passage through the complex microbial environment of the intestine in vivo, inhabited dominantly by various E. coli strains, using traditional culturing methods. In this study we transformed EcN and a wild-type E. coli from a laboratory rat (EcR) with a plasmid carrying a gfp gene (pUC-gfp) to obtain EcN- and EcR-GFP to allow in vivo detection without alteration of strain-specific characteristics. Analysis of different strain-specific characteristics included the measurement of stimulation of IL-8 secretion and adhesion in vitro using the epithelial cell line HT-29. The kinetics of intestinal distribution in mice and colonization properties in rats following oral administration was studied in vivo. Detectability of the strain in histologic specimens was analysed using fluorescence microscopy and immunohistochemistry. The identity of fluorescent E. coli strains isolated from stool samples, Peyer's patches (PP) and mesenteric lymph nodes (MLN) was determined by REP-PCR. We were able to demonstrate that EcN and EcN-GFP do not differ in stimulation of IL-8 secretion or adhesion to HT-29 cells. In vivo, EcN-GFP colonies were readily detectable by fluorescence microscopy in luminal samples and also by immunohistochemistry in histological sections allowing analysis of the kinetics of the intestinal passage following oral administration. Translocation of fluorescent and non-fluorescent bacteria into PP and MLN was noted at 6 h post oral administration. EcN-GFP was detectable initially for 14 days in faecal samples of rats, while EcR-GFP was detectable throughout the whole experiment (45 days). Challenge with ampicillin at day 45 demonstrated continuing presence of EcN-GFP in small numbers by reappearing fluorescent colonies. The plasmid was not stable in vivo since non-fluorescent EcN colonies were detected also in faecal samples by REP-PCR. In summary, transformation of EcN to obtain EcN-GFP in our study had no detectable influence on the probiotic microorganism regarding adhesion on and induction of IL-8 secretion of HT-29 cells and allows the detection in mixed microbial environments in vivo but the stability of EcN-GFP in vivo is limited.
• 4.21

  Impact points

  A Salmonella fim homologue in Citrobacter freundii mediates invasion in vitro and crossing of the blood-brain barrier in the rat pup model.

  Petra Hess, Artur Altenhöfer, A Salam Khan, Neda Daryab, Kwang Sik Kim, Jörg Hacker, Tobias A Oelschlaeger

  Infection and immunity. 10/2004; 72(9):5298-307.

  From the invasive Citrobacter freundii strain 3009, an invasion determinant was cloned, sequenced, and expressed. Sequence analysis of the determinant showed high homology with the fim determinant from Salmonella enterica serovar Typhimurium. The genes of the invasion determinant directed invasion o... [more] From the invasive Citrobacter freundii strain 3009, an invasion determinant was cloned, sequenced, and expressed. Sequence analysis of the determinant showed high homology with the fim determinant from Salmonella enterica serovar Typhimurium. The genes of the invasion determinant directed invasion of recombinant Escherichia coli K-12 strains into human epithelial cell lines of the bladder and gut as well as mannose-sensitive yeast agglutination and were termed fim(Cf) genes. Expression of the Fim(Cf) proteins was shown by (35)S labeling and/or Western blotting. In the infant rat model of experimental hematogenous meningitis, C. freundii strain 3009 and the in vitro invasive recombinant E. coli K-12 strain harboring the fim(Cf) determinant reached the cerebrospinal fluid, in contrast to the case for the control strain. The fim determinant was also necessary for efficient in vitro invasion by C. freundii, because a deletion mutant was strongly reduced in its invasion efficiency. The mutation could be complemented in trans by the corresponding genes. Invasion by C. freundii could be blocked only by d-mannose, GlcNAc, and chitin hydrolysate and not by other carbohydrates tested. In contrast, yeast agglutination was not affected by GlcNAc or chitin hydrolysate. This finding indicated mannose residues to be essential for both yeast agglutination and invasion, whereas GlcNAc (oligomer) residues of host cells are involved exclusively in invasion. These results showed the fim determinant of C. freundii to be responsible for d-mannose- and GlcNAc-dependent in vitro invasion without being assembled into pili and for crossing of the blood-brain barrier in the infant rat model.
• 2.34

  Impact points

  The probiotic Escherichia coli strain Nissle 1917 interferes with invasion of human intestinal epithelial cells by different enteroinvasive bacterial pathogens.

  Artur Altenhoefer, Sibylle Oswald, Ulrich Sonnenborn, Corinne Enders, Juergen Schulze, Joerg Hacker, Tobias A Oelschlaeger

  FEMS immunology and medical microbiology. 05/2004; 40(3):223-9.

  The probiotic Escherichia coli strain Nissle 1917 (Mutaflor) of serotype O6:K5:H1 was reported to protect gnotobiotic piglets from infection with Salmonella enterica serovar Typhimurium. An important virulence property of Salmonella is invasion of host epithelial cells. Therefore, we tested for inte... [more] The probiotic Escherichia coli strain Nissle 1917 (Mutaflor) of serotype O6:K5:H1 was reported to protect gnotobiotic piglets from infection with Salmonella enterica serovar Typhimurium. An important virulence property of Salmonella is invasion of host epithelial cells. Therefore, we tested for interference of E. coli strain Nissle 1917 with Salmonella invasion of INT407 cells. Simultaneous administration of E. coli strain Nissle 1917 and Salmonella resulted in up to 70% reduction of Salmonella invasion efficiency. Furthermore, invasion of Yersinia enterocolitica, Shigella flexneri, Legionella pneumophila and even of Listeria monocytogenes were inhibited by the probiotic E. coli strain Nissle 1917 without affecting the viability of the invasive bacteria. The observed inhibition of invasion was not due to the production of microcins by the Nissle 1917 strain because its isogenic microcin-negative mutant SK22D was as effective as the parent strain. Reduced invasion rates were also achieved if strain Nissle 1917 was separated from the invasive bacteria as well as from the INT407 monolayer by a membrane non-permeable for bacteria. We conclude E. coli Nissle 1917 to interfere with bacterial invasion of INT407 cells via a secreted component and not relying on direct physical contact with either the invasive bacteria or the epithelial cells.
• 3.94

  Impact points

  The high-pathogenicity island is absent in human pathogens of Salmonella enterica subspecies I but present in isolates of subspecies III and VI.

  T A Oelschlaeger, D Zhang, S Schubert, E Carniel, W Rabsch, H Karch, J Hacker

  Journal of bacteriology. 03/2003; 185(3):1107-11.

  In this study we tested 74 Salmonella strains of all eight Salmonella groups and were able to demonstrate the presence of two high-pathogenicity island types in strains of Salmonella groups IIIa, IIIb, and VI. Most high-pathogenicity island-positive isolates produced yersiniabactin under iron-limite... [more] In this study we tested 74 Salmonella strains of all eight Salmonella groups and were able to demonstrate the presence of two high-pathogenicity island types in strains of Salmonella groups IIIa, IIIb, and VI. Most high-pathogenicity island-positive isolates produced yersiniabactin under iron-limited conditions and were positive for the high-molecular-weight proteins HMWP1 and HMWP2.

• Analysis of pathogenicity islands of STEC.

  Tobias A Oelschlaeger, Ulrich Dobrindt, Britta Janke, Barbara Middendorf, Helge Karch, Jörg Hacker

  Methods in molecular medicine. 02/2003; 73:99-112.
• 2.80

  Impact points

  The avian chorioallantoic membrane in ovo--a useful model for bacterial invasion assays.

  Rüdiger Adam, Shueb Mussa, Dirk Lindemann, Tobias A Oelschlaeger, Mary Deadman, David J P Ferguson, Richard Moxon, Horst Schroten

  International journal of medical microbiology : IJMM. 10/2002; 292(3-4):267-75.

  The aim of this study was to evaluate the practicability of the chick embryo chorioallantoic membrane (CAM) with special regard to the 'natural air sac' technique (NAST) of preparation for in-vivo research on the invasive potential of bacterial strains of various enterobacterial species. It ... [more] The aim of this study was to evaluate the practicability of the chick embryo chorioallantoic membrane (CAM) with special regard to the 'natural air sac' technique (NAST) of preparation for in-vivo research on the invasive potential of bacterial strains of various enterobacterial species. It was sought to establish an experimental system more closely resembling in-vivo conditions than cell lines on one hand, and cheaper and easier to handle than established animal models on the other. Fertilized eggs of the domestic fowl were incubated. The CAM was prepared atraumatically at the natural air space of the egg, and a cannula was inserted for subsequent extraction of allantoic fluid (AF) below the CAM. The CAM was then inoculated with either one out of five strains of Klebsiella pneumoniae, an Escherichia coli K-12 strain or a Salmonella typhimurium strain, either alone or in combinations, respectively. AF samples were extracted at certain time points, and the presence of bacteria was determined by cultivation. Penetration and mortality ratios of the infected embryos were calculated. In addition, the mode of crossing the epithelial barrier was examined by electron microscopy. Differing rates of invasion through the CAM and rates of mortality of the chicken embryos demonstrated a clear dependency on the inoculated bacterial strain. Low invading bacteria could be distinguished from intermediate strains, and from strains exerting a strong capability of invasion and killing of the embryos. Simultaneous monotopical inoculation of Klebsiella and E. coli showed a permissive effect of co-incubated Klebsiella on the invasiveness of E. coli. The chick embryo CAM prepared by NAST has shown to be a useful model for in vivo studies on invasion capabilities, pathogenicity and interactions of inoculated bacteria.
• 2.20

  Impact points

  Role of fibronectin in curli-mediated internalization.

  Uri Gophna, Tobias A Oelschlaeger, Joerg Hacker, Eliora Z Ron

  FEMS microbiology letters. 07/2002; 212(1):55-8.

  Curli fibers of Escherichia coli mediate internalization of bacteria by eukaryotic cells. As curli fibers bind fibronectin with high affinity, the role of fibronectin in the uptake process was studied. The experiments presented here support the involvement of fibronectin in internalization of bacter... [more] Curli fibers of Escherichia coli mediate internalization of bacteria by eukaryotic cells. As curli fibers bind fibronectin with high affinity, the role of fibronectin in the uptake process was studied. The experiments presented here support the involvement of fibronectin in internalization of bacteria. Furthermore, a peptide containing the RGD motif, responsible for interaction of fibronectin with cellular integrins, can strongly inhibit curli-mediated internalization. The ability of curli fibers to bind fibronectin can therefore be linked to virulence.
• 3.03

  Impact points

  Pathogenicity islands of uropathogenic E. coli and the evolution of virulence.

  T A Oelschlaeger, U Dobrindt, J Hacker

  International journal of antimicrobial agents. 07/2002; 19(6):517-21.

  Uropathogenic Escherichia coli (UPEC) are the most important group of microorganisms responsible for urinary tract infection. UPEC differ from non-pathogenic E. coli and from other E. coli pathotypes by the production of specific virulence factors, which enable the bacteria to adhere to uroepithelia... [more] Uropathogenic Escherichia coli (UPEC) are the most important group of microorganisms responsible for urinary tract infection. UPEC differ from non-pathogenic E. coli and from other E. coli pathotypes by the production of specific virulence factors, which enable the bacteria to adhere to uroepithelial cells and to establish urinary tract infections. Besides adherence factors, toxins, 'modulins', capsules, iron uptake systems and other bacterial products contribute to the virulence of the strains. The respective genes are frequently located on large pieces of DNA called 'pathogenicity islands' (PAIs). PAIs form (unstable) regions of the genome of UPECs, which are often associated with tRNA genes. Using various molecular techniques, the functions of PAI encoded gene products have been studied. The usage of DNA arrays give answers to questions on the distribution of PAIs among various enterobacteria and on the expression of the different genes under in vitro and in vivo conditions. In addition, assumptions can be made on the evolution of these important pathogens.
• 2.50

  Impact points

  Virulence factors of uropathogens.

  Tobias A Oelschlaeger, Ulrich Dobrindt, Joerg Hacker

  Current opinion in urology. 02/2002; 12(1):33-8.

  Urinary tract infections are among the most frequent infections encountered in developed countries. The vast majority of community-acquired urinary tract infections are caused by Escherichia coli. However, other bacterial species play an important role in nosocomial urinary tract infections. All the... [more] Urinary tract infections are among the most frequent infections encountered in developed countries. The vast majority of community-acquired urinary tract infections are caused by Escherichia coli. However, other bacterial species play an important role in nosocomial urinary tract infections. All these species are equipped with a variety of virulence factors. The best characterized are those from Escherichia coli. Among the first virulence factors that come into play during establishment of a urinary tract infection are adhesins. Besides their primary function as adhesin molecules several other additional functions can now be attributed to these organelles. Adhesins may also function as invasins, promote biofilm formation and transmit signals to epithelial cells resulting in inflammation. Furthermore, subunit proteins of adhesins seem to be promising vaccines. Later in infection, toxins seem to enhance virulence. However, for cytotoxic necrotizing factor type 1 this is controversial. Many virulence factors of uropathogenic bacteria are encoded by foreign DNA stretches inserted into the core genome. These pathogenicity islands or islets were obviously acquired via horizontal gene transfer creating new pathotypes more efficient in establishing infection. The role of new virulence factors and the new functions of already known virulence factors will be discussed as well as the concept of the composite genome of uropathogenic Escherichia coli.