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8. Comparative analyses of Legionella species identifies genetic features of strains causing Legionnaires' disease

Author

Gomez-Valero, L, Rusniok, C, Rolando, M, Neou, M, Dervins-Ravault, D, Demirtas, J, Rouy, Z, Moore, RJ, Chen, H, Petty, NK, Jarraud, S, Etienne, J, Steinert, M, Heuner, K, Gribaldo, S, Medigue, C, Gloeckner, G, Hartland, EL, Buchrieser, C, Gomez-Valero, L, Rusniok, C, Rolando, M, Neou, M, Dervins-Ravault, D, Demirtas, J, Rouy, Z, Moore, RJ, Chen, H, Petty, NK, Jarraud, S, Etienne, J, Steinert, M, Heuner, K, Gribaldo, S, Medigue, C, Gloeckner, G, Hartland, EL, and Buchrieser, C

Abstract

BACKGROUND: The genus Legionella comprises over 60 species. However, L. pneumophila and L. longbeachae alone cause over 95% of Legionnaires’ disease. To identify the genetic bases underlying the different capacities to cause disease we sequenced and compared the genomes of L. micdadei, L. hackeliae and L. fallonii (LLAP10), which are all rarely isolated from humans. RESULTS: We show that these Legionella species possess different virulence capacities in amoeba and macrophages, correlating with their occurrence in humans. Our comparative analysis of 11 Legionella genomes belonging to five species reveals highly heterogeneous genome content with over 60% representing species-specific genes; these comprise a complete prophage in L. micdadei, the first ever identified in a Legionella genome. Mobile elements are abundant in Legionella genomes; many encode type IV secretion systems for conjugative transfer, pointing to their importance for adaptation of the genus. The Dot/Icm secretion system is conserved, although the core set of substrates is small, as only 24 out of over 300 described Dot/Icm effector genes are present in all Legionella species. We also identified new eukaryotic motifs including thaumatin, synaptobrevin or clathrin/coatomer adaptine like domains. CONCLUSIONS: Legionella genomes are highly dynamic due to a large mobilome mainly comprising type IV secretion systems, while a minority of core substrates is shared among the diverse species. Eukaryotic like proteins and motifs remain a hallmark of the genus Legionella. Key factors such as proteins involved in oxygen binding, iron storage, host membrane transport and certain Dot/Icm substrates are specific features of disease-related strains.

Published
2014

11. Host cell factors influencing intracellular survival and replication of Legionella pneumophila

Author

Flieger, A., Heuner, K., Meyer, T. F., Engels, Cecilia Maria Amelie, Flieger, A., Heuner, K., Meyer, T. F., and Engels, Cecilia Maria Amelie

Abstract

Legionella pneumophila ist der Erreger der Legionärskrankheit. Die Pathogenität des Bakteriums basiert auf seiner Fähigkeit innerhalb menschlicher Lungenzellen zu überleben und sich zu vermehren. Demzufolge ist L. pneumophila nicht nur interessant als wichtiges Pathogen, sondern kann auch als Sonde verwendet werden, um allgemeine intrazelluläre Ereignisse zu untersuchen. Ein Beispiel hierfür ist die, durch das Pathogen gestörte, intrazelluläre Kommunikation zwischen den Organellen des endoplasmatischen Retikulums (ER) und dem Golgi Apparat (GA). In der vorliegenden Studie schlagen wir ein neues Modell vor, wie das Bakterium erfolgreich seine replikative Nische, die Legionella Vakuole (LV), innerhalb des Zytosols aufbauen könnte, um seine Ausbreitung zu garantieren. Um die Mechanismen für die erfolgreiche Ausbeutung der Wirtszelle gezielt untersuchen zu können, haben wir mit Hilfe von siRNA spezifisch verschiedene Wirtszellproteinen herunterreguliert und den Einfuß der Abwesenheit dieser Proteine auf die Vermehrung von L. pneumophila gemessen. Die Ergebnisse wiesen darauf hin, dass die LV möglicherweise den Golgi Apparat imitiert und auf diese Weise den zellulären Vesikeltransport umleitet. Diese Theorie wurde durch in silico Ergebnisse unterstützt, die in der Proteinsequenz des Legionella Effektor-Proteins LidA, das auf der Vakuole lokalisiert ist, ein SNARE-ähnliches Motiv zeigte. Dies weist auf ein auf der Vakuole lokalisiertes SNARE-Erkennungsmotiv hin, das notwendig sein könnte, um zelluläre Transportvesikel zu koppeln. Aus dem Wissen heraus, dass L. pneumophila in der Lage ist, die Aktivierung der zellulären Proteine Arf1 und Rab1 durch Phosphorylierung und Dephosphorylierung zu regulieren, machten wir uns auf die Suche nach Proteinen, die auf Infektion hin modifiziert werden. Die Kommunikation von Wirt und Pathogen über Phosphorylierung ist bekannt im Bezug auf pathogenspezifische Modifikation des Zytoskeletts und Signalkaskaden in der Anti-Apoptose. Für diese, Legionella pneumophila is the causative agent of Legionnaires´ disease. The bacterium’s pathogenicity is based on its ability to survive and multiply efficiently inside human alveolar cells. Therefore, L. pneumophila is not only an important pathogen, but can also be used as a probe to investigate host cell function as for example, in the cellular trafficking pathway. In this study, we establish a new model of how this pathogen efficiently constructs its replicative niche, the Legionella containing vacuole (LCV), inside the host cytosol, enabling its dissemination. To investigate the mechanisms that lead to effective exploitation of the host cell, we down-regulated specific host cellular proteins via siRNA technology and measured the subsequent impact on L. pneumophila replication. The results suggest that the LCV mimicks the Golgi apparatus and via this mechanism hijacks host cellular vesicular trafficking. The L. pneumophila secreted effector protein LidA, located within the LCV, is shown to have a SNARE-like motif, suggesting a SNARE like sole connected to the LCV. Since it is known that cellular signalling proteins are controlled via phosphorylation and dephosphorylation, we went on to search for specifically modulated host cell proteins after L. pneumophila infection. The cross-talk of the pathogen with its host via phosphorylation has been connected to several sub-cellular activities leading to, for instance, cytoskeleton rearrangement and signalling events including anti-apoptosis pathways. Here we used a phosphorylated tyrosine antibody resulting in the detection of an amoeba serine-threonine-kinase, phosphorylated at its tyrosine residue. This kinase shows homologies to the human GSK3 of the wnt-signalling pathway. (“Wnt“ is merged from the names of the homologues genes Wg (Drosophila melanogaster) and Int (mouse) both employed in evolutionary developement.) The final part of this work concentrated on anti-apoptotic signalling events induced upon L. pneumop

Published
2010

12. Charakterisierung und Bedeutung der Plasmide p1ColV 5155 und p2 5155 für den aviären pathogenen E. coli-Stamm IMT5155

Author

Wieler, L. H., Schneider, E., Heuner, K., Böhnke, Ute, Wieler, L. H., Schneider, E., Heuner, K., and Böhnke, Ute

Abstract

In der vorliegenden Arbeit wurde das Colicin V-codierende Plasmid p1ColV5155 des aviär pathogenen E. coli-Stammes (APEC) IMT5155 (O2:K1:H5) weitestgehend sequenzanalysiert und seine virulenzassoziierten Eigenschaften untersucht. Das ~ 180 kb große p1ColV5155 weist mit EitABC, EtsABCD, Salmochelin, SitABCD und Aerobaktin fünf ABC-Transportsysteme auf, deren Bedeutung für die Aufnahme von Eisenionen für die letztgenannten zwei Systeme mit Hilfe von Cosmidklonen (GB5155cD34, GB5155cD27) in einer Enterobaktin-negativen E. coli 1017-Transformante mittels CAS-Assays nachgewiesen werden konnte. Eine signifikante regulatorische Bedeutung von Eisenionen für die Expression plasmidcodierter virulenzassoziierter Faktoren konnte durch beta-Galaktosidase-Expressionsassays in einer IMT5155-Mutante (Iln) für das Serumresistenz steigernde Protein Iss, nicht jedoch für das Temperatursensitive Hämagglutinin (Tsh) nachgewiesen werden. Eine Aktivitätssteigerung beider Promotoren wurde durch eine gute Nährstoffversorgung bei einer Wachstumstemperatur von 37 °C erreicht. Insgesamt lassen die Studienergebnisse darauf rückschließen, dass der Promotor von tsh im Gegensatz zu iss sehr viel schwächer ist und spezifischer reguliert wird. In vivo-Versuche mit einer p1ColV5155-E. coli K12-Transformante (IMTp1D01) hatte weder Morbidität noch Mortalität der infizierten 5 Wochen alten SPF-Hühner zur Folge. Verschiedene in vitro-Versuche ergaben, dass das Plasmid nicht konjugationsfähig und über Generationen sehr stabil in der E. coli K12-Transformante nachzuweisen war. Das Plasmid vermittelte der Transformante eine erhöhte Resistenz beim Wachstum in Hühnerserum sowie eine erhöhte Tenazität in Makrophagen (Maus, J774). Damit weist das ColV-Plasmid eine Reihe genetischer Eigenschaften auf, die den APEC und anderen extraintestinal pathogenen E. coli-Stämmen sowohl eine Steigerung der Fitness in der Umwelt als auch ihre Vermehrung im Blut von Mensch und Tier ermöglichen., In this study a high molecular weight, colicin V encoding plasmid p1ColV5155 of APEC strain IMT5155 (O2:K1:H5) was nearly complete sequenced and analysed. The most prevalent virulence traits of the ~ 180 kb plasmid are serum resistance (increased serum survival protein, Iss), adhesion (temperature-sensitive hemagglutinin, Tsh) and five different ABC-transport systems (EitABC, EtsABCD, salmochelin, SitABCD and aerobactin), the latter three being acquisition systems for iron. Studies with cosmids (GB5155cD34, GB5155cD27) which possess only sequences of p1ColV5155 salmochelin and aerobactin in an enterobactin-deficient E. coli1017, confirmed their importance for iron acquisition. The importance of iron in the regulation of the assumed virulence associated genes of the ColV-plasmid was tested especially for the promoter activity of iss and tsh. Expression studies in beta-galactosidase mutated strain of IMT5155 (Iln) corroborated the importance of environmental factors including source of sugar and a temperature of 37 °C of both promoter activities. The lack of iron decreases, and growth on serum increased the promoter activity of iss. In contrast the activity of the tsh promoter was much weaker and there was no indication found for iron-depending factors which regulate the promoter in a special way. Results of in vivo assays with a p1ColV5155-transformant of E. coli K12 (IMTp1D01) in five week old SPF-chickens did not result in disease. However, the presence of p1ColV5155 in the E. coli K12-strain was solid and increased the ability of the transformant to avoid destruction by bactericidal effects of macrophages (mouse, J774) and to survive in serum in vitro. In summary the ColV-plasmid seams to increase the fitness of the APEC and other extraintestinal pathogenic E. coli. Multiple iron acquisition and a potent defending system of the host serum help to remain to the environmental and in blood of human and animals alike.

Published
2010

13. Charakterisierung Patatin-ähnlicher Proteine des Lungenpathogens Legionella pneumophila

Author

Schneider, E., Hube, B., Heuner, K., Auraß, Philipp, Schneider, E., Hube, B., Heuner, K., and Auraß, Philipp

Abstract

Legionella pneumophila ist ein fakultativ intrazellulär replizierendes Bakterium und der Erreger der Legionärskrankheit, einer schweren Pneumonie. Das Typ IVB Dot/Icm Proteinsekretionssystem und dessen Effektoren sind wesentlich an der Virulenz des Bakteriums beteiligt. Das Ziel der vorliegenden Arbeit war die Charakterisierung der Patatin-ähnlichen Proteine von L. pneumophila - insbesondere von PatA, das vom Dot/Icm Sekretionssystem in Wirtszellen eingeschleußt wird. Im Rahmen dieser Arbeit wurden folgende Ergebnisse erzielt: Die 11 Patatin-ähnlichen Proteine von L. pneumophila zeigen hauptsächlich Lysophospholipase A-Aktivität. PatA besitzt außerdem Phosphatidylglyzerol-spezifische Phospholipase A-Aktivität. Serin-72, welches in ein G-X-S-X-G Lipasemotiv eingebettet ist, ist für die Aktivität des Proteins essentiell. PatA ist nach Expression in A549 Epithelzellen in der Zytoplasmamembran oder einer damit eng assoziierten Struktur lokalisiert, die lipolytische Aktivität ist hierfür nicht entscheidend. Die Deletion einer C-terminalen Proteinregion führt zum Verlust der membranständigen Lokalisation. Virulenzattenuierte L. pneumophila Mutanten bilden unter Präsenz von Amöben - im Gegensatz zu Wildtypstämmen - eine Koloniemorphologie aus, die Scattermorphologie genannt wurde. Auf Basis der Scattermorphologie wurde eine Transposon-mutagenisierte Legionella Klonbank auf Wirtszellkolonisationsdefekte überprüft. Dabei wurden 119 kolonisationsdefekte Mutanten isoliert und 70 neue putative Wirtszellkolonisationsgene, darunter zwei Gene Patatin-ähnliche Proteine (patD, patF), identifiziert. patD befindet sich in einem Operon mit bdhA, dem Gen einer putativen 2-Hydroxybutyrat-Dehydrogenase. Das Operon spielt eine Rolle im Poly-Beta-Hydroxybutyrat (PHB) Stoffwechsel des Bakteriums und wird für die Replikation in Wirtszellen benötigt. Die Studie liefert die ersten experimentell fundierten Ergebnisse, die die Bedeutung des PHB-Metabolismus für die Virulenz des Bakteriums belegen, Legionella pneumophila is the causative agent of Legionnaires’ disease, a potentially fatal pneumonia. One mayor virulence determinant is the Dot/Icm Type IVB secretion system and its effector proteins. Aim of the present work was the characterization of patatin-like proteins of L. pneumophila, and in particular PatA, which is carried by the Dot/Icm secretion system into host cells. Within this work following results were obtained: The 11 patatin-like proteins of L. pneumophila possess majorly lysophospholipase A activity. L. pneumophila PatA additionally shows Phosphatidylglycerole-specific phospholipase A activity. Serin-72, which is embedded in an G-X-S-X-G lipase motiv is essential for the lipolytic activity of PatA. PatA locates to, or close to, the cytoplasmic membrane when expressed in A549 epithelial cells. The lipolytic activity of PatA is not required for membrane targeting and deletion of a C-terminal region abolishes proper targeting. Virulence attenuated L. pneumophila mutants, develop an easy recognizable phenotype during co-culture with A. castellanii on agar plates that was named „scatterphenotype“. On the basis of the scatterphenotype, a new assay was developed allowing screening of huge clone banks with respect to amoebae sensitivity, a marker for reduced virulence. Here, a collection of several thousand transposon mutagenized L. pneumophila clones was screened and a total of 119 amoebae sensitive mutants was isolated. Among those, 70 novel putative host cell colonization and virulence genes were identified including two members of the patatin-like protein family (patD, PatF). patD is cotranscribed with bdhA, therefore forming an operon. bdhA encodes a putative 3-hydroxybutyrate dehydrogenase. The operon is involved in the poly-beta-hydroxybutyrate (PHB) metabolism of L. pneumophila and is needed for replication in host cells. The study provides the first experimentally funded data showing the linkage of PHB metabolism and virulence of L. pneumophi

Published
2009

15. Interaction of Legionella pneumophila with Dictyostelium discoideum

Author

Marre, R., Kwaik, Y. A., Bartlett, C., Steinert, M., Hägele, S., Skriwan, C., Grimm, D., Fajardo, M., Heuner, K., Schleicher, M., Hentschel, Ute, Ludwig, W., Hacker, J., Marre, R., Kwaik, Y. A., Bartlett, C., Steinert, M., Hägele, S., Skriwan, C., Grimm, D., Fajardo, M., Heuner, K., Schleicher, M., Hentschel, Ute, Ludwig, W., and Hacker, J.

Published
2002

26. Legionella pneumophila induces human beta Defensin-3 in pulmonary cells

Author

Hippenstiel Stefan, Heuner Klaus, Flieger Antje, Opitz Bastian, Schmeck Bernd, Lang Friederike, Vardarova Kremena, Scharf Stefanie, Suttorp Norbert, and N'Guessan Philippe D

Subjects
Diseases of the respiratory system, RC705-779
Abstract

Abstract Background Legionella pneumophila is an important causative agent of severe pneumonia in humans. Human alveolar epithelium and macrophages are effective barriers for inhaled microorganisms and actively participate in the initiation of innate host defense. The beta defensin-3 (hBD-3), an antimicrobial peptide is an important component of the innate immune response of the human lung. Therefore we hypothesize that hBD-3 might be important for immune defense towards L. pneumophila. Methods We investigated the effects of L. pneumophila and different TLR agonists on pulmonary cells in regard to hBD-3 expression by ELISA. Furthermore, siRNA-mediated inhibition of TLRs as well as chemical inhibition of potential downstream signaling molecules was used for functional analysis. Results L. pneumophila induced release of hBD-3 in pulmonary epithelium and alveolar macrophages. A similar response was observed when epithelial cells were treated with different TLR agonists. Inhibition of TLR2, TLR5, and TLR9 expression led to a decreased hBD-3 expression. Furthermore expression of hBD-3 was mediated through a JNK dependent activation of AP-1 (c-Jun) but appeared to be independent of NF-κB. Additionally, we demonstrate that hBD-3 elicited a strong antimicrobial effect on L. pneumophila replication. Conclusions Taken together, human pulmonary cells produce hBD-3 upon L. pneumophila infection via a TLR-JNK-AP-1-dependent pathway which may contribute to an efficient innate immune defense.

Published
2010
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27. Molecular characterization of Legionella pneumophila-induced interleukin-8 expression in T cells

Author

Mukaida Naofumi, Matsumoto Kunihiro, Ishikawa Chie, Takeshima Eriko, Teruya Hiromitsu, Takamatsu Reika, Li Jian-Dong, Heuner Klaus, Higa Futoshi, Fujita Jiro, and Mori Naoki

Subjects
Microbiology, QR1-502
Abstract

Abstract Background Legionella pneumophila is the causative agent of human Legionnaire's disease. During infection, the bacterium invades macrophages and lung epithelial cells, and replicates intracellularly. However, little is known about its interaction with T cells. We investigated the ability of L. pneumophila to infect and stimulate the production of interleukin-8 (IL-8) in T cells. The objective of this study was to assess whether L. pneumophila interferes with the immune system by interacting and infecting T cells. Results Wild-type L. pneumophila and flagellin-deficient Legionella, but not L. pneumophila lacking a functional type IV secretion system Dot/Icm, replicated in T cells. On the other hand, wild-type L. pneumophila and Dot/Icm-deficient Legionella, but not flagellin-deficient Legionella or heat-killed Legionella induced IL-8 expression. L. pneumophila activated an IL-8 promoter through the NF-κB and AP-1 binding regions. Wild-type L. pneumophila but not flagellin-deficient Legionella activated NF-κB, p38 mitogen-activated protein kinase (MAPK), Jun N-terminal kinase (JNK), and transforming growth factor β-associated kinase 1 (TAK1). Transfection of dominant negative mutants of IκBα, IκB kinase, NF-κB-inducing kinase, TAK1, MyD88, and p38 MAPK inhibited L. pneumophila-induced IL-8 activation. Inhibitors of NF-κB, p38 MAPK, and JNK blocked L. pneumophila-induced IL-8 expression. In addition, c-Jun, JunD, cyclic AMP response element binding protein, and activating transcription factor 1, which are substrates of p38 MAPK and JNK, bound to the AP-1 site of the IL-8 promoter. Conclusions Taken together, L. pneumophila induced a flagellin-dependent activation of TAK1, p38 MAPK, and JNK, as well as NF-κB and AP-1, which resulted in IL-8 production in human T cells, presumably contributing to the immune response in Legionnaire's disease.

Published
2010
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28. Mechanisms of Legionella pneumophila-induced interleukin-8 expression in human lung epithelial cells

Author

Tomimori Koh, Okudaira Taeko, Ishikawa Chie, Akamine Morikazu, Higa Futoshi, Teruya Hiromitsu, Mukaida Naofumi, Tateyama Masao, Heuner Klaus, Fujita Jiro, and Mori Naoki

Subjects
Microbiology, QR1-502
Abstract

Abstract Background Legionella pneumophila is a facultative intracellular bacterium, capable of replicating within the phagosomes of macrophages and monocytes, but little is known about its interaction with human lung epithelial cells. We investigated the effect of L. pneumophila on the expression of interleukin-8 (IL-8) in human A549 alveolar and NCI-H292 tracheal epithelial cell lines. Results Infection of L. pneumophila strain, but not heat-killed strain, resulted in upregulation of IL-8. IL-8 mRNA expression was induced immediately after the infection and its signal became gradually stronger until 24 h after infection. On the other hand, IL-8 expression in A549 cells infected with L. pneumophila lacking a functional type IV secretion system was transient. The IL-8 expression was slightly induced at 16 h and increased at 24 h after infection with flagellin-deficient Legionella. Activation of the IL-8 promoter by L. pneumophila infection occurred through the action of nuclear factor-κB (NF-κB). Transfection of dominant negative mutants of NF-κB-inducing kinase, IκB kinase and IκB inhibited L. pneumophila-mediated activation of IL-8 promoter. Treatment with hsp90 inhibitor suppressed L. pneumophila-induced IL-8 mRNA due to deactivation of NF-κB. Conclusion Collectively, these results suggest that L. pneumophila induces activation of NF-κB through an intracellular signaling pathway that involves NF-κB-inducing kinase and IκB kinase, leading to IL-8 gene transcription, and that hsp90 acts as a crucial regulator in L. pneumophila-induced IL-8 expression, presumably contributing to immune response in L. pneumophila. The presence of flagellin and a type IV secretion system are critical for Legionella to induce IL-8 expression in lung epithelial cells.

Published
2007
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29. Charakterisierung und Bedeutung der Plasmide p1ColV 5155 und p2 5155 für den aviären pathogenen E. coli-Stamm IMT5155

Author

Böhnke, Ute, Wieler, L. H., Schneider, E., and Heuner, K.

Subjects
APEC, zoonotisches Risiko, 32 Biologie, Persistenz in Makrophagen, eisenakquirierende Systeme, zoonotic risk, WG 2350, acquisition systems for iron, ddc:570, ColV-plasmid, 570 Biowissenschaften, Biologie, gene regulation, persistence in macrophages, Genregulation
Abstract

In der vorliegenden Arbeit wurde das Colicin V-codierende Plasmid p1ColV5155 des aviär pathogenen E. coli-Stammes (APEC) IMT5155 (O2:K1:H5) weitestgehend sequenzanalysiert und seine virulenzassoziierten Eigenschaften untersucht. Das ~ 180 kb große p1ColV5155 weist mit EitABC, EtsABCD, Salmochelin, SitABCD und Aerobaktin fünf ABC-Transportsysteme auf, deren Bedeutung für die Aufnahme von Eisenionen für die letztgenannten zwei Systeme mit Hilfe von Cosmidklonen (GB5155cD34, GB5155cD27) in einer Enterobaktin-negativen E. coli 1017-Transformante mittels CAS-Assays nachgewiesen werden konnte. Eine signifikante regulatorische Bedeutung von Eisenionen für die Expression plasmidcodierter virulenzassoziierter Faktoren konnte durch beta-Galaktosidase-Expressionsassays in einer IMT5155-Mutante (Iln) für das Serumresistenz steigernde Protein Iss, nicht jedoch für das Temperatursensitive Hämagglutinin (Tsh) nachgewiesen werden. Eine Aktivitätssteigerung beider Promotoren wurde durch eine gute Nährstoffversorgung bei einer Wachstumstemperatur von 37 °C erreicht. Insgesamt lassen die Studienergebnisse darauf rückschließen, dass der Promotor von tsh im Gegensatz zu iss sehr viel schwächer ist und spezifischer reguliert wird. In vivo-Versuche mit einer p1ColV5155-E. coli K12-Transformante (IMTp1D01) hatte weder Morbidität noch Mortalität der infizierten 5 Wochen alten SPF-Hühner zur Folge. Verschiedene in vitro-Versuche ergaben, dass das Plasmid nicht konjugationsfähig und über Generationen sehr stabil in der E. coli K12-Transformante nachzuweisen war. Das Plasmid vermittelte der Transformante eine erhöhte Resistenz beim Wachstum in Hühnerserum sowie eine erhöhte Tenazität in Makrophagen (Maus, J774). Damit weist das ColV-Plasmid eine Reihe genetischer Eigenschaften auf, die den APEC und anderen extraintestinal pathogenen E. coli-Stämmen sowohl eine Steigerung der Fitness in der Umwelt als auch ihre Vermehrung im Blut von Mensch und Tier ermöglichen. In this study a high molecular weight, colicin V encoding plasmid p1ColV5155 of APEC strain IMT5155 (O2:K1:H5) was nearly complete sequenced and analysed. The most prevalent virulence traits of the ~ 180 kb plasmid are serum resistance (increased serum survival protein, Iss), adhesion (temperature-sensitive hemagglutinin, Tsh) and five different ABC-transport systems (EitABC, EtsABCD, salmochelin, SitABCD and aerobactin), the latter three being acquisition systems for iron. Studies with cosmids (GB5155cD34, GB5155cD27) which possess only sequences of p1ColV5155 salmochelin and aerobactin in an enterobactin-deficient E. coli1017, confirmed their importance for iron acquisition. The importance of iron in the regulation of the assumed virulence associated genes of the ColV-plasmid was tested especially for the promoter activity of iss and tsh. Expression studies in beta-galactosidase mutated strain of IMT5155 (Iln) corroborated the importance of environmental factors including source of sugar and a temperature of 37 °C of both promoter activities. The lack of iron decreases, and growth on serum increased the promoter activity of iss. In contrast the activity of the tsh promoter was much weaker and there was no indication found for iron-depending factors which regulate the promoter in a special way. Results of in vivo assays with a p1ColV5155-transformant of E. coli K12 (IMTp1D01) in five week old SPF-chickens did not result in disease. However, the presence of p1ColV5155 in the E. coli K12-strain was solid and increased the ability of the transformant to avoid destruction by bactericidal effects of macrophages (mouse, J774) and to survive in serum in vitro. In summary the ColV-plasmid seams to increase the fitness of the APEC and other extraintestinal pathogenic E. coli. Multiple iron acquisition and a potent defending system of the host serum help to remain to the environmental and in blood of human and animals alike.

Published
2010

30. Host cell factors influencing intracellular survival and replication of Legionella pneumophila

Author

Engels, Cecilia Maria Amelie, Flieger, A., Heuner, K., and Meyer, T. F.

Subjects
Golgi-apparatus, Golgi-Apparat, Cellular trafficking, Biphasic NF-kappaB activation, 32 Biologie, Legionella pneumophila, Proteinphosphorylierung, Protein phosphorylation, Zwei-phasige NF-kappaB Aktivierung, ddc:570, WF 5500, 570 Biowissenschaften, Biologie, NF-kappaB, zellulärer Transport
Abstract

Legionella pneumophila ist der Erreger der Legionärskrankheit. Die Pathogenität des Bakteriums basiert auf seiner Fähigkeit innerhalb menschlicher Lungenzellen zu überleben und sich zu vermehren. Demzufolge ist L. pneumophila nicht nur interessant als wichtiges Pathogen, sondern kann auch als Sonde verwendet werden, um allgemeine intrazelluläre Ereignisse zu untersuchen. Ein Beispiel hierfür ist die, durch das Pathogen gestörte, intrazelluläre Kommunikation zwischen den Organellen des endoplasmatischen Retikulums (ER) und dem Golgi Apparat (GA). In der vorliegenden Studie schlagen wir ein neues Modell vor, wie das Bakterium erfolgreich seine replikative Nische, die Legionella Vakuole (LV), innerhalb des Zytosols aufbauen könnte, um seine Ausbreitung zu garantieren. Um die Mechanismen für die erfolgreiche Ausbeutung der Wirtszelle gezielt untersuchen zu können, haben wir mit Hilfe von siRNA spezifisch verschiedene Wirtszellproteinen herunterreguliert und den Einfuß der Abwesenheit dieser Proteine auf die Vermehrung von L. pneumophila gemessen. Die Ergebnisse wiesen darauf hin, dass die LV möglicherweise den Golgi Apparat imitiert und auf diese Weise den zellulären Vesikeltransport umleitet. Diese Theorie wurde durch in silico Ergebnisse unterstützt, die in der Proteinsequenz des Legionella Effektor-Proteins LidA, das auf der Vakuole lokalisiert ist, ein SNARE-ähnliches Motiv zeigte. Dies weist auf ein auf der Vakuole lokalisiertes SNARE-Erkennungsmotiv hin, das notwendig sein könnte, um zelluläre Transportvesikel zu koppeln. Aus dem Wissen heraus, dass L. pneumophila in der Lage ist, die Aktivierung der zellulären Proteine Arf1 und Rab1 durch Phosphorylierung und Dephosphorylierung zu regulieren, machten wir uns auf die Suche nach Proteinen, die auf Infektion hin modifiziert werden. Die Kommunikation von Wirt und Pathogen über Phosphorylierung ist bekannt im Bezug auf pathogenspezifische Modifikation des Zytoskeletts und Signalkaskaden in der Anti-Apoptose. Für diese Studie wurde ein Antikörper verwendet, der spezifisch phosphorylierte Tyrosinreste erkennt. Dies resultierte in der Detektion einer Serin-Threonin-Kinase in der Amöbe Acanthamöba castellanii, die an einem Tyrosinrest phosphoryliert ist. Diese Amöben-Kinase wies in silico Homologie zu der humanen GS-Kinase 3 des Wnt-Signalwegs, bekannt aus der Forschung der embronalen Entwicklung bei Drosophila, auf. Der letzte Teil dieser Arbeit konzentrierte sich auf die, durch eine L. pneumophila-Infektion ausgelöste, anti-apoptotische Signalkaskade. Es ist bekannt, dass auf eine Infektion hin NF-kappaB aktiviert wird. Dies führt dazu, dass p65 in den Zellkern wandert und dort als Transkriptionsfaktor aktiv wird. Diese Translokation geschieht in 2 zeitversetzten Phasen. Eine Aktivierungsspitze wird nach dem Kontakt mir bakteriellem Flagellin gemessen, gefolgt, von einer dauerhaften Aktivierung, abhängig von einem funktionierenden Dot/ Icm Typ-IV-Translokationssystem. In dieser Arbeit stießen wir auf eine L. pneumophila Mutante, die den Dot/ Icm-Effektor SdbA nicht bildet, und die daraufhin NF-appaB nicht aktivieren kann. Diese Mutante war ebenfalls nicht in der Lage, sich in Epithelzellen zu vermehren. Dies ist außergewöhnlich, da das L. pneumophila Effektor Repertoire so redundant ist, dass die Abwesenheit eines einzigen Effektors selten einen so starken Einfluss auf die Replikation hat. All diese Ergebnisse zeigen zusammengenommen, auf wie vielen verschiedenen Ebenen L. pneumophila in der Lage ist, seine Wirtszelle zu manipulieren, um einerseits die nötige Nische für seine Vermehrung zu etablieren und andererseits die Zelle am Selbstmord zu hindern. Dies geschieht durch Imitation zellulärer Prozesse. Legionella pneumophila is the causative agent of Legionnaires´ disease. The bacterium’s pathogenicity is based on its ability to survive and multiply efficiently inside human alveolar cells. Therefore, L. pneumophila is not only an important pathogen, but can also be used as a probe to investigate host cell function as for example, in the cellular trafficking pathway. In this study, we establish a new model of how this pathogen efficiently constructs its replicative niche, the Legionella containing vacuole (LCV), inside the host cytosol, enabling its dissemination. To investigate the mechanisms that lead to effective exploitation of the host cell, we down-regulated specific host cellular proteins via siRNA technology and measured the subsequent impact on L. pneumophila replication. The results suggest that the LCV mimicks the Golgi apparatus and via this mechanism hijacks host cellular vesicular trafficking. The L. pneumophila secreted effector protein LidA, located within the LCV, is shown to have a SNARE-like motif, suggesting a SNARE like sole connected to the LCV. Since it is known that cellular signalling proteins are controlled via phosphorylation and dephosphorylation, we went on to search for specifically modulated host cell proteins after L. pneumophila infection. The cross-talk of the pathogen with its host via phosphorylation has been connected to several sub-cellular activities leading to, for instance, cytoskeleton rearrangement and signalling events including anti-apoptosis pathways. Here we used a phosphorylated tyrosine antibody resulting in the detection of an amoeba serine-threonine-kinase, phosphorylated at its tyrosine residue. This kinase shows homologies to the human GSK3 of the wnt-signalling pathway. (“Wnt“ is merged from the names of the homologues genes Wg (Drosophila melanogaster) and Int (mouse) both employed in evolutionary developement.) The final part of this work concentrated on anti-apoptotic signalling events induced upon L. pneumophila infection. It is known that during L. pneumophila infection the activation of NF-kappaB and subsequent translocation of p65 from the cytosol into the nucleus follows a biphasic pattern. One short peak of activation is induced upon contact with bacterial flagellin, succeeded by a permanent Dot/ Icm type IV secretion system-dependent activation. In this study, we found the L. pneumophila mutant lacking the Dot/ Icm effector SdbA to be unable to activate NF-kappaB. This mutant also showed impaired growth in epithelial cells. This is remarkable due to the high redundancy of the L. pneumophila effector system, meaning deletion of a single effector rarely has such a big impact on replication. Taken together this work demonstrates, the manifold ways in which L. pneumophila on the one hand side establishes its niche to ensure replication and on the other hand side to bars its host cell from suicide. All of this is managed by mimicking cellular processes.

Published
2010

31. Charakterisierung Patatin-ähnlicher Proteine des Lungenpathogens Legionella pneumophila

Author

Auraß, Philipp, Schneider, E., Hube, B., and Heuner, K.

Subjects
Virulence, Virulenz, ddc:570, YB 6600, 32 Biologie, Legionella, 570 Biowissenschaften, Biologie, Patatin, Amöben, Amoebae, Phospholipase, Intracellular replication, Intrazelluläre Replikation
Abstract

Legionella pneumophila ist ein fakultativ intrazellulär replizierendes Bakterium und der Erreger der Legionärskrankheit, einer schweren Pneumonie. Das Typ IVB Dot/Icm Proteinsekretionssystem und dessen Effektoren sind wesentlich an der Virulenz des Bakteriums beteiligt. Das Ziel der vorliegenden Arbeit war die Charakterisierung der Patatin-ähnlichen Proteine von L. pneumophila - insbesondere von PatA, das vom Dot/Icm Sekretionssystem in Wirtszellen eingeschleußt wird. Im Rahmen dieser Arbeit wurden folgende Ergebnisse erzielt: Die 11 Patatin-ähnlichen Proteine von L. pneumophila zeigen hauptsächlich Lysophospholipase A-Aktivität. PatA besitzt außerdem Phosphatidylglyzerol-spezifische Phospholipase A-Aktivität. Serin-72, welches in ein G-X-S-X-G Lipasemotiv eingebettet ist, ist für die Aktivität des Proteins essentiell. PatA ist nach Expression in A549 Epithelzellen in der Zytoplasmamembran oder einer damit eng assoziierten Struktur lokalisiert, die lipolytische Aktivität ist hierfür nicht entscheidend. Die Deletion einer C-terminalen Proteinregion führt zum Verlust der membranständigen Lokalisation. Virulenzattenuierte L. pneumophila Mutanten bilden unter Präsenz von Amöben - im Gegensatz zu Wildtypstämmen - eine Koloniemorphologie aus, die Scattermorphologie genannt wurde. Auf Basis der Scattermorphologie wurde eine Transposon-mutagenisierte Legionella Klonbank auf Wirtszellkolonisationsdefekte überprüft. Dabei wurden 119 kolonisationsdefekte Mutanten isoliert und 70 neue putative Wirtszellkolonisationsgene, darunter zwei Gene Patatin-ähnliche Proteine (patD, patF), identifiziert. patD befindet sich in einem Operon mit bdhA, dem Gen einer putativen 2-Hydroxybutyrat-Dehydrogenase. Das Operon spielt eine Rolle im Poly-Beta-Hydroxybutyrat (PHB) Stoffwechsel des Bakteriums und wird für die Replikation in Wirtszellen benötigt. Die Studie liefert die ersten experimentell fundierten Ergebnisse, die die Bedeutung des PHB-Metabolismus für die Virulenz des Bakteriums belegen. Legionella pneumophila is the causative agent of Legionnaires’ disease, a potentially fatal pneumonia. One mayor virulence determinant is the Dot/Icm Type IVB secretion system and its effector proteins. Aim of the present work was the characterization of patatin-like proteins of L. pneumophila, and in particular PatA, which is carried by the Dot/Icm secretion system into host cells. Within this work following results were obtained: The 11 patatin-like proteins of L. pneumophila possess majorly lysophospholipase A activity. L. pneumophila PatA additionally shows Phosphatidylglycerole-specific phospholipase A activity. Serin-72, which is embedded in an G-X-S-X-G lipase motiv is essential for the lipolytic activity of PatA. PatA locates to, or close to, the cytoplasmic membrane when expressed in A549 epithelial cells. The lipolytic activity of PatA is not required for membrane targeting and deletion of a C-terminal region abolishes proper targeting. Virulence attenuated L. pneumophila mutants, develop an easy recognizable phenotype during co-culture with A. castellanii on agar plates that was named „scatterphenotype“. On the basis of the scatterphenotype, a new assay was developed allowing screening of huge clone banks with respect to amoebae sensitivity, a marker for reduced virulence. Here, a collection of several thousand transposon mutagenized L. pneumophila clones was screened and a total of 119 amoebae sensitive mutants was isolated. Among those, 70 novel putative host cell colonization and virulence genes were identified including two members of the patatin-like protein family (patD, PatF). patD is cotranscribed with bdhA, therefore forming an operon. bdhA encodes a putative 3-hydroxybutyrate dehydrogenase. The operon is involved in the poly-beta-hydroxybutyrate (PHB) metabolism of L. pneumophila and is needed for replication in host cells. The study provides the first experimentally funded data showing the linkage of PHB metabolism and virulence of L. pneumophila.

Published
2009

32. Ex vivo infection model for Francisella using human lung tissue.

Author

Köppen K, Fatykhova D, Holland G, Rauch J, Tappe D, Graff M, Rydzewski K, Hocke AC, Hippenstiel S, and Heuner K

Subjects
Animals, Humans, Rabbits, Mice, Cytokines metabolism, Lung microbiology, Chemokines metabolism, Bacterial Vaccines, Mice, Inbred C57BL, Francisella tularensis genetics, Tularemia microbiology
Abstract

Introduction: Tularemia is mainly caused by Francisella tularensis ( Ft ) subsp. tularensis ( Ftt ) and Ft subsp. holarctica ( Ftt ) in humans and in more than 200 animal species including rabbits and hares. Human clinical manifestations depend on the route of infection and range from flu-like symptoms to severe pneumonia with a mortality rate up to 60% without treatment. So far, only 2D cell culture and animal models are used to study Francisella virulence , but the gained results are transferable to human infections only to a certain extent., Method: In this study, we firstly established an ex vivo human lung tissue infection model using different Francisella strains: Ftt Life Vaccine Strain (LVS), Ftt LVS ΔiglC, Ftt human clinical isolate A-660 and a German environmental Francisella species strain W12-1067 ( F -W12). Human lung tissue was used to determine the colony forming units and to detect infected cell types by using spectral immunofluorescence and electron microscopy. Chemokine and cytokine levels were measured in culture supernatants., Results: Only LVS and A-660 were able to grow within the human lung explants, whereas LVS ΔiglC and F -W12 did not replicate. Using human lung tissue, we observed a greater increase of bacterial load per explant for patient isolate A-660 compared to LVS, whereas a similar replication of both strains was observed in cell culture models with human macrophages. Alveolar macrophages were mainly infected in human lung tissue, but Ftt was also sporadically detected within white blood cells. Although Ftt replicated within lung tissue, an overall low induction of pro-inflammatory cytokines and chemokines was observed. A-660-infected lung explants secreted slightly less of IL-1β, MCP-1, IP-10 and IL-6 compared to Ftt LVS-infected explants, suggesting a more repressed immune response for patient isolate A-660. When LVS and A-660 were used for simultaneous co-infections, only the ex vivo model reflected the less virulent phenotype of LVS, as it was outcompeted by A-660., Conclusion: We successfully implemented an ex vivo infection model using human lung tissue for Francisella . The model delivers considerable advantages and is able to discriminate virulent Francisella from less- or non-virulent strains and can be used to investigate the role of specific virulence factors., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Köppen, Fatykhova, Holland, Rauch, Tappe, Graff, Rydzewski, Hocke, Hippenstiel and Heuner.)

Published
2023
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33. Phenotypic and genotypic discrimination of Francisella tularensis ssp. holarctica clades.

Author

Köppen K, Rydzewski K, Doellinger J, Myrtennäs K, Forsman M, Appelt S, Scholz H, and Heuner K

Subjects
Animals, Phylogeny, Zoonoses microbiology, Phenotype, Francisella tularensis genetics, Tularemia microbiology
Abstract

Francisella tularensis is the causative agent of tularemia, a zoonotic disease with a wide host range. F. tularensis ssp. holarctica (Fth) is of clinical relevance for European countries, including Germany. Whole genome sequencing methods, including canonical Single Nucleotide Polymorphism (canSNP) typing and whole genome SNP typing, have revealed that European Fth strains belong to a few monophyletic populations. The majority of German Fth isolates belong to two basal phylogenetic clades B.6 (biovar I) and B.12 (biovar II). Strains of B.6 and B.12 seem to differ in their pathogenicity, and it has been shown that strains of biovar II are resistant against erythromycin. In this study, we present data corroborating our previous data demonstrating that basal clade B.12 can be divided into clades B.71 and B.72. By applying phylogenetic whole genome analysis as well as proteome analysis, we could verify that strains of these two clades are distinct from one another. This was confirmed by measuring the intensity of backscatter light on bacteria grown in liquid media. Strains belonging to clades B.6, B.71 or B.72 showed clade-specific backscatter growth curves. Furthermore, we present the whole genome sequence of strain A-1341, as a reference genome of clade B.71, and whole proteomes comparison of Fth strains belonging to clades B.6, B.71 and B.72. Further research is necessary to investigate phenotypes and putative differences in pathogenicity of the investigated different clades of Fth to better understand the relationship between observed phenotypes, pathogenicity and distribution of Fth strains., Competing Interests: Declaration of Competing Interest All authors declare no conflict of interest., (Copyright © 2023 The Authors. Published by Elsevier GmbH.. All rights reserved.)

Published
2023
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35. Ulceroglandular form of tularemia after squirrel bite: a case report.

Author

Borgschulte HS, Jacob D, Zeeh J, Scholz HC, and Heuner K

Subjects
Animals, Anti-Bacterial Agents therapeutic use, Female, Humans, Lymph Nodes pathology, Middle Aged, Sciuridae, Francisella tularensis, Tularemia diagnosis, Tularemia drug therapy
Abstract

Background: The diagnosis of tularemia is not often considered in Germany as the disease is still rare in this country. Nonetheless, Francisella tularensis, the causative agent of tularemia, can infect numerous animal species and should, therefore, not be neglected as a dangerous pathogen. Tularemia can lead to massively swollen lymph nodes and might even be fatal without antibiotic treatment. To our knowledge, the case described here is the first report of the disease caused by a squirrel bite in Germany., Case Presentation: A 59-year-old German woman with a past medical history of hypothyroidism and cutaneous lupus erythematosus presented at the emergency room at St. Katharinen Hospital with ongoing symptoms and a swollen right elbow persisting despite antibiotic therapy with cefuroxime for 7 days after she had been bitten (right hand) by a wild squirrel (Eurasian red squirrel). After another 7 days of therapy with piperacillin/tazobactam, laboratory analysis using real-time polymerase chain reaction (PCR) confirmed the suspected diagnosis of tularemia on day 14. After starting the recommended antibiotic treatment with ciprofloxacin, the patient recovered rapidly., Conclusion: This is the first report of a case of tularemia caused by a squirrel bite in Germany. A naturally infected squirrel has recently been reported in Switzerland for the first time. The number of human cases of tularemia has been increasing over the last years and, therefore, tularemia should be taken into consideration as a diagnosis, especially in a patient bitten by an animal who also presents with headache, increasing pain, lymphadenitis, and fever, as well as impaired wound healing. The pathogen can easily be identified by a specific real-time PCR assay of wound swabs and/or by antibody detection, for example by enzyme-linked immunosorbent assay (ELISA), if the incident dates back longer than 2 weeks., (© 2022. The Author(s).)

Published
2022
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36. Metabolic adaption of Legionella pneumophila during intracellular growth in Acanthamoeba castellanii.

Author

Kunze M, Steiner T, Chen F, Huber C, Rydzewski K, Stämmler M, Heuner K, and Eisenreich W

Subjects
Amino Acids metabolism, Bacterial Proteins metabolism, Metabolic Networks and Pathways, Acanthamoeba castellanii, Legionella pneumophila metabolism
Abstract

The metabolism of Legionella pneumophila strain Paris was elucidated during different time intervals of growth within its natural host Acanthamoeba castellanii. For this purpose, the amoebae were supplied after bacterial infection (t =0 h) with 11 mM [U- 13 C 6 ]glucose or 3 mM [U- 13 C 3 ]serine, respectively, during 0-17 h, 17-25 h, or 25-27 h of incubation. At the end of these time intervals, bacterial and amoebal fractions were separated. Each of these fractions was hydrolyzed under acidic conditions. 13 C-Enrichments and isotopologue distributions of resulting amino acids and 3-hydroxybutyrate were determined by gas chromatography - mass spectrometry. Comparative analysis of the labelling patterns revealed the substrate preferences, metabolic pathways, and relative carbon fluxes of the intracellular bacteria and their amoebal host during the time course of the infection cycle. Generally, the bacterial infection increased the usage of exogenous glucose via glycolysis by A. castellanii. In contrast, carbon fluxes via the amoebal citrate cycle were not affected. During the whole infection cycle, intracellular L. pneumophila incorporated amino acids from their host into the bacterial proteins. However, partial bacterial de novo biosynthesis from exogenous 13 C-Ser and, at minor rates, from 13 C-glucose could be shown for bacterial Ala, Asp, Glu, and Gly. More specifically, the catabolic usage of Ser increased during the post-exponential phase of intracellular growth, whereas glucose was utilized by the bacteria throughout the infection cycle and not only late during infection as assumed on the basis of earlier in vitro experiments. The early usage of 13 C-glucose by the intracellular bacteria suggests that glucose availability could serve as a trigger for replication of L. pneumophila inside the vacuoles of host cells., (Copyright © 2021 The Author(s). Published by Elsevier GmbH.. All rights reserved.)

Published
2021
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37. First Description of a Temperate Bacteriophage (vB _FhiM _KIRK) of Francisella hispaniensis Strain 3523.

Author

Köppen K, Prensa GI, Rydzewski K, Tlapák H, Holland G, and Heuner K

Subjects
Bacteriophages classification, Bacteriophages isolation & purification, Bacteriophages ultrastructure, Genome, Viral, Myoviridae classification, Myoviridae isolation & purification, Myoviridae ultrastructure, Open Reading Frames, Phylogeny, Viral Proteins genetics, Bacteriophages genetics, Francisella virology, Myoviridae genetics
Abstract

Here we present the characterization of a Francisella bacteriophage (vB_ FhiM _KIRK) including the morphology, the genome sequence and the induction of the prophage. The prophage sequence (FhaGI-1) has previously been identified in F. hispaniensis strain 3523. UV radiation induced the prophage to assemble phage particles consisting of an icosahedral head (~52 nm in diameter), a tail of up to 97 nm in length and a mean width of 9 nm. The double stranded genome of vB_ FhiM _KIRK contains 51 open reading frames and is 34,259 bp in length. The genotypic and phylogenetic analysis indicated that this phage seems to belong to the Myoviridae family of bacteriophages. Under the conditions tested here, host cell ( Francisella hispaniensis 3523) lysis activity of KIRK was very low, and the phage particles seem to be defective for infecting new bacterial cells. Nevertheless, recombinant KIRK DNA was able to integrate site-specifically into the genome of different Francisella species after DNA transformation.

Published
2021
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38. Complete Genome Sequence of Francisella tularensis subsp. holarctica Strain A271_1 (FDC408), Isolated from a Eurasian Beaver (Castor fiber).

Author

Sundell D, Uneklint I, Öhrman C, Salomonsson E, Karlsson L, Bäckman S, Näslund J, Sjödin A, Forsman M, Appelt S, Drechsel O, Jacob D, Heuner K, and Myrtennäs K

Abstract

Here, we report the complete genome sequence of Francisella tularensis subsp. holarctica strain A271_1, isolated from a Eurasian beaver ( Castor fiber ) in 2012 in the Berlin/Brandenburg region, Germany., (Copyright © 2020 Sundell et al.)

Published
2020
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39. Outbreak of Tularemia in a Group of Hunters in Germany in 2018-Kinetics of Antibody and Cytokine Responses.

Author

Jacob D, Barduhn A, Tappe D, Rauch J, Heuner K, Hierhammer D, Vom Berge K, Riehm JM, Hanczaruk M, Böhm S, Böhmer MM, Konrad R, Bouschery B, Dauer M, Schichtl E, Hossain H, and Grunow R

Abstract

In November 2018, an outbreak of tularemia occurred among hare hunters in Bavaria, Germany. At least one infected hare was confirmed as the source of infection. A number of hunting dogs showed elevated antibody titers to Francisella tularensis , but the absence of titer increases in subsequent samples did not point to acute infections in dogs. Altogether, 12 persons associated with this hare hunt could be diagnosed with acute tularemia by detection of specific antibodies. In nine patients, the antibody and cytokine responses could be monitored over time. Eight out of these nine patients had developed detectable antibodies three weeks after exposure; in one individual the antibody response was delayed. All patients showed an increase in various cytokines and chemokines with a peak for most mediators in the first week after exposure. Cytokine levels showed individual variations, with high and low responders. The kinetics of seroconversion has implications on serological diagnoses of tularemia.

Published
2020
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40. Francisella tularensis Subspecies holarctica and Tularemia in Germany.

Author

Appelt S, Faber M, Köppen K, Jacob D, Grunow R, and Heuner K

Abstract

Tularemia is a zoonotic disease caused by Francisella tularensis a small, pleomorphic, facultative intracellular bacterium. In Europe, infections in animals and humans are caused mainly by Francisella tularensis subspecies holarctica . Humans can be exposed to the pathogen directly and indirectly through contact with sick animals, carcasses, mosquitoes and ticks, environmental sources such as contaminated water or soil, and food. So far, F. tularensis subsp. holarctica is the only Francisella species known to cause tularemia in Germany. On the basis of surveillance data, outbreak investigations, and literature, we review herein the epidemiological situation-noteworthy clinical cases next to genetic diversity of F. tularensis subsp. holarctica strains isolated from patients. In the last 15 years, the yearly number of notified cases of tularemia has increased steadily in Germany, suggesting that the disease is re-emerging. By sequencing F. tularensis subsp. holarctica genomes, knowledge has been added to recent findings, completing the picture of genotypic diversity and geographical segregation of Francisella clades in Germany. Here, we also shortly summarize the current knowledge about a new Francisella species ( Francisella sp. strain W12-1067) that has been recently identified in Germany. This species is the second Francisella species discovered in Germany.

Published
2020
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41. Myo-Inositol as a carbon substrate in Francisella and insights into the metabolism of Francisella sp. strain W12-1067.

Author

Chen F, Köppen K, Rydzewski K, Einenkel R, Morguet C, Vu DT, Eisenreich W, and Heuner K

Subjects
Amino Acids metabolism, Computer Simulation, Francisella pathogenicity, Genome, Bacterial, Genomic Islands, Glucose metabolism, Inositol Oxygenase metabolism, Water Microbiology, Carbon metabolism, Francisella genetics, Francisella metabolism, Inositol metabolism, Multigene Family
Abstract

Recently, a new environmental Francisella strain, Francisella sp. strain W12-1067, has been identified in Germany. This strain is negative for the Francisella pathogenicity island (FPI) but exhibits a putative alternative type VI secretion system. Some known virulence factors of Francisella are present, but the pathogenic capacity of this species is not known yet. In silico genome analysis reveals the presence of a gene cluster tentatively enabling myo-inositol (MI) utilization via a putative inositol oxygenase. Labelling experiments starting from 2 H-inositol demonstrate that this gene cluster is indeed involved in the metabolism of MI. We further show that, under in vitro conditions, supply of MI increases growth rates of strain W12-1067 in the absence of glucose and that the metabolism of MI is strongly reduced in a W12-1067 mutant lacking the MI gene cluster. The positive growth effect of MI in the absence of glucose is restored in this mutant strain by introducing the complete MI gene cluster. F. novicida Fx1 is also positive for the MI metabolizing gene cluster and MI again increases growth in a glucose-free medium, in contrast to F. novicida strain U112, which is shown to be a natural mutant of the MI metabolizing gene cluster. Labelling experiments of Francisella sp. strain W12-1067 in medium T containing 13 C-glucose, 13 C-serine or 13 C-glycerol as tracers suggest a bipartite metabolism where glucose is mainly metabolized through glycolysis, but not through the Entner-Doudoroff pathway or the pentose phosphate pathway. Carbon flux from 13 C-glycerol and 13 C-serine is less active, and label from these tracers is transferred mostly into amino acids, lactate and fatty acids. Together, the metabolism of Francisella sp. strain W12-1067 seems to be more related to the respective one in F. novicida rather than in F. tularensis subsp. holarctica., Competing Interests: Declaration of Competing Interest All authors declare no conflict of interests., (Copyright © 2020 The Authors. Published by Elsevier GmbH.. All rights reserved.)

Published
2020
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42. Genetic Diversity and Spatial Segregation of Francisella tularensis Subspecies holarctica in Germany.

Author

Appelt S, Köppen K, Radonić A, Drechsel O, Jacob D, Grunow R, and Heuner K

Subjects
Animals, Anti-Bacterial Agents pharmacology, Francisella tularensis drug effects, Genotype, Germany epidemiology, Humans, Phylogeny, Phylogeography, Polymorphism, Single Nucleotide, Spatial Analysis, Zoonoses epidemiology, Zoonoses microbiology, Francisella tularensis classification, Francisella tularensis genetics, Genetic Variation, Tularemia epidemiology, Tularemia microbiology
Abstract

Francisella tularensis is an intracellular pleomorphic bacterium and the causative agent of tularemia, a zoonotic disease with a wide host range. Among the F. tularensis subspecies, especially F. tularensis subsp. holarctica is of clinical relevance for European countries. The study presented herein focuses namely on genetic diversity and spatial segregation of F. tularensis subsp. holarctica in Germany, as still limited information is available. The investigation is based on the analysis of 34 F. tularensis subsp. holarctica isolates and one draft genome from an outbreak strain. The isolates were cultured from sample material being that of primarily human patients ( n = 25) and free-living animals ( n = 9). For six of 25 human isolates, epidemiological links between disease onset and tick bites could be established, confirming the importance of arthropod linked transmission of tularemia in Germany. The strains were assigned to three of four major F. tularensis subsp. holarctica clades: B.4, B.6, and B.12. Thereby, B.6 and B.12 clade members were predominantly found; only one human isolate was assigned to clade B.4. Also, it turned out that eight isolates which caused pneumonia in patients clustered into the B.6 clade. Altogether, eight different final subclades were assigned to clade B.6 (biovar I, erythromycin sensitive) and six to B.12 (biovar II, erythromycin resistant) in addition to one new final B.12 subclade. Moreover, for 13 human and 3 animal isolates, final subclade subdivisions were not assigned (B.12 subdivisions B.33 and B.34, and B.6 subdivision B.45) because official nomenclatures are not available yet. This gives credit to the genetic variability of F. tularensis subsp. holarctica strains in Germany. The results clearly point out that the given genetic diversity in Germany seems to be comparably high to that found in other European countries including Scandinavian regions. A spatial segregation of B.6 and B.12 strains was found and statistically confirmed, and B.12 clade members were predominantly found in eastern parts and B.6 members more in western to southern parts of Germany. The portion of B.12 clade members in northeastern parts of Germany was 78.5% and in southwestern parts 1.9%., (Copyright © 2019 Appelt, Köppen, Radonić, Drechsel, Jacob, Grunow and Heuner.)

Published
2019
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43. Screen for fitness and virulence factors of Francisella sp. strain W12-1067 using amoebae.

Author

Köppen K, Chen F, Rydzewski K, Einenkel R, Böttcher T, Morguet C, Grunow R, Eisenreich W, and Heuner K

Subjects
DNA Transposable Elements, Francisella genetics, Francisella growth & development, Glucokinase genetics, Host-Pathogen Interactions, Microbial Viability, Mutagenesis, Insertional, Mutation, Acanthamoeba microbiology, Bacterial Proteins genetics, Francisella pathogenicity, Francisella physiology, Virulence Factors genetics
Abstract

Francisella tularensis is the causative agent of the human disease referred to as tularemia. Other Francisella species are known but less is understood about their virulence factors. The role of environmental amoebae in the life-cycle of Francisella is still under discussion. Francisella sp. strain W12-1067 (F-W12) is an environmental Francisella isolate recently identified in Germany which is negative for the Francisella pathogenicity island, but exhibits a putative alternative type VI secretion system. Putative virulence factors have been identified in silico in the genome of F-W12. In this work, we established a "scatter screen", used earlier for pathogenic Legionella, to verify experimentally and identify candidate fitness factors using a transposon mutant bank of F-W12 and Acanthamoeba lenticulata as host organism. In these experiments, we identified 79 scatter clones (amoeba sensitive), which were further analyzed by an infection assay identifying 9 known virulence factors, but also candidate fitness factors of F-W12 not yet described as fitness factors in Francisella. The majority of the identified genes encoded proteins involved in the synthesis or maintenance of the cell envelope (LPS, outer membrane, capsule) or in the metabolism (glycolysis, gluconeogenesis, pentose phosphate pathway). Further 13 C-flux analysis of the Tn5 glucokinase mutant strain revealed that the identified gene indeed encodes the sole active glucokinase in F-W12. In conclusion, candidate fitness factors of the new Francisella species F-W12 were identified using the scatter screen method which might also be usable for other Francisella species., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published
2019
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44. Molecular identification of the source of an uncommon tularaemia outbreak, Germany, autumn 2016.

Author

Jacob D, Köppen K, Radonić A, Haldemann B, Zanger P, Heuner K, and Grunow R

Subjects
Animals, Base Sequence, Cytochromes b genetics, Francisella tularensis isolation & purification, Germany epidemiology, High-Throughput Nucleotide Sequencing, Humans, Murinae genetics, Phylogeny, Polymerase Chain Reaction methods, Sequence Analysis, DNA, Vitis genetics, Disease Outbreaks, Francisella tularensis genetics, Murinae microbiology, Tularemia epidemiology, Tularemia microbiology, Wine microbiology
Abstract

BackgroundIn 2016, an uncommon outbreak of oropharyngeal tularaemia involving six human cases occurred in Germany, caused by drinking contaminated fresh must after a grape harvest.AimWe describe the details of laboratory investigations leading to identification of the outbreak strain, its characterisation by next generation sequencing (NGS) and the finding of the possible source of contamination.MethodsWe incubated wine samples in different media and on agar plates. NGS was performed on DNA isolated from young wine, sweet reserve and an outbreak case's lymph node. A draft genome of the outbreak strain was generated. Vertebrate-specific PCRs using primers targeting the mitochondrial cytochrome b gene and product analyses by blast search were used to identify the putative source of must contamination.ResultsNo bacterial isolate could be obtained. Analysis of the draft genome sequence obtained from the sweet reserve attributed this sequence to Francisella tularensis subsp. holarctica , belonging to the B.12/B.34 phylogenetic clade (erythromycin-resistant biovar II). In addition, the DNA sequence obtained from the case's isolate supported our hypothesis that infection was caused by drinking contaminated must. The vertebrate-specific cytochrome b sequence derived from the young wine and the sweet reserve could be assigned to Apodemus sylvaticus (wood mouse), suggesting that a wood mouse infected with F. tularensis may have contaminated the must.ConclusionThe discovered source of infection and the transmission scenario of F. tularensis in this outbreak have not been observed previously and suggest the need for additional hygienic precautionary measures when processing and consuming freshly pressed must.

Published
2019
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45. The Pathometabolism of Legionella Studied by Isotopologue Profiling.

Author

Heuner K, Kunze M, Chen F, and Eisenreich W

Subjects
Cell Line, Data Analysis, Gas Chromatography-Mass Spectrometry, Isotope Labeling, Macrophages metabolism, Macrophages microbiology, Magnetic Resonance Spectroscopy, Proteolysis, Carbon Isotopes metabolism, Energy Metabolism, Legionella physiology, Legionellosis metabolism, Legionellosis microbiology, Metabolic Networks and Pathways, Metabolome, Metabolomics methods
Abstract

Metabolic pathways and fluxes can be analyzed under in vivo conditions by incorporation experiments using general 13 C-labelled precursors. On the basis of the isotopologue compositions in amino acids or other metabolites, the incorporation rates of the supplied precursors and the pathways of their utilization can be studied in considerable detail. In this chapter, the method of isotopologue profiling is illustrated with recent work on the metabolism of intracellular living Legionella pneumophila.

Published
2019
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46. Oropharyngeal Tularemia from Freshly Pressed Grape Must.

Author

Burckhardt F, Hoffmann D, Jahn K, Heuner K, Jacob D, Vogt M, Bent S, Grunow R, and Zanger P

Subjects
Adolescent, Adult, Agricultural Workers' Diseases microbiology, Animals, Child, Female, Germany, Humans, Male, Mice, Pharyngeal Diseases microbiology, Poisson Distribution, Risk Factors, Wine, Young Adult, Agricultural Workers' Diseases etiology, Agriculture instrumentation, Equipment Contamination, Francisella tularensis, Pharyngeal Diseases etiology, Tularemia etiology, Vitis microbiology, Zoonoses transmission
Published
2018
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47. Construction of a New Phage Integration Vector pFIV-Val for Use in Different Francisella Species.

Author

Tlapák H, Köppen K, Rydzewski K, Grunow R, and Heuner K

Subjects
Chloramphenicol Resistance genetics, DNA, Bacterial genetics, Drug Resistance, Bacterial genetics, Escherichia coli genetics, Francisella growth & development, Francisella virology, Francisella tularensis genetics, Humans, Integrases genetics, Mutation, RNA, Transfer, Val genetics, Recombination, Genetic, U937 Cells, Bacteriophages genetics, Francisella genetics, Genetic Vectors, Genomic Islands, Plasmids, Transformation, Bacterial
Abstract

We recently identified and described a putative prophage on the genomic island FhaGI-1 located within the genome of Francisella hispaniensis AS02-814 ( F. tularensis subsp. novicida -like 3523). In this study, we constructed two variants of a Francisella phage integration vector, called pFIV1-Val and pFIV2-Val ( Francisella Integration Vector-tRNA Val -specific), using the attL/R- sites and the site-specific integrase (FN3523_1033) of FhaGI-1, a chloramphenicol resistance cassette and a sacB gene for counter selection of transformants against the vector backbone. We inserted the respective sites and genes into vector pUC57-Kana to allow for propagation in Escherichia coli . The constructs generated a circular episomal form in E. coli which could be used to transform Francisella spp . where FIV-Val stably integrated site specifically into the tRNA Val gene of the genome, whereas pUC57-Kana is lost due to counter selection. Functionality of the new vector was demonstrated by the successfully complementation of a Francisella mutant strain. The vectors were stable in vitro and during host-cell infection without selective pressure. Thus, the vectors can be applied as a further genetic tool in Francisella research, expanding the present genetic tools by an integrative element. This new element is suitable to perform long-term experiments with different Francisella species.

Published
2018
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48. Tularemia in Germany-A Re-emerging Zoonosis.

Author

Faber M, Heuner K, Jacob D, and Grunow R

Subjects
Animals, Disease Outbreaks, Geography, Germany epidemiology, History, 20th Century, History, 21st Century, Humans, Population Surveillance, Tularemia diagnosis, Tularemia history, Francisella tularensis, Tularemia epidemiology, Zoonoses
Abstract

Tularemia, also known as "rabbit fever," is a zoonosis caused by the facultative intracellular, gram-negative bacterium Francisella tularensis . Infection occurs through contact with infected animals (often hares), arthropod vectors (such as ticks or deer flies), inhalation of contaminated dust or through contaminated food and water. In this review, we would like to provide an overview of the current epidemiological situation in Germany using published studies and case reports, an analysis of recent surveillance data and our own experience from the laboratory diagnostics, and investigation of cases. While in Germany tularemia is a rarely reported disease, there is evidence of recent re-emergence. We also describe some peculiarities that were observed in Germany, such as a broad genetic diversity, and a recently discovered new genus of Francisella and protracted or severe clinical courses of infections with the subspecies holarctica . Because tularemia is a zoonosis, we also touch upon the situation in the animal reservoir and one-health aspects of this disease. Apparently, many pieces of the puzzle need to be found and put into place before the complex interaction between wildlife, the environment and humans are fully understood. Funding for investigations into rare diseases is scarce. Therefore, combining efforts in several countries in the framework of international projects may be necessary to advance further our understanding of this serious but also scientifically interesting disease.

Published
2018
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49. The Flagellar Regulon of Legionella- A Review.

Author

Appelt S and Heuner K

Subjects
Bacterial Proteins genetics, Cell Movement genetics, Humans, Phylogeny, Sigma Factor genetics, Virulence genetics, Flagella genetics, Legionella classification, Legionella genetics, Regulon genetics
Abstract

The Legionella genus comprises more than 60 species. In particular, Legionella pneumophila is known to cause severe illnesses in humans. Legionellaceae are ubiquitous inhabitants of aquatic environments. Some Legionellaceae are motile and their motility is important to move around in habitats. Motility can be considered as a potential virulence factor as already shown for various human pathogens. The genes of the flagellar system, regulator and structural genes, are structured in hierarchical levels described as the flagellar regulon. Their expression is modulated by various environmental factors. For L. pneumophila it was shown that the expression of genes of the flagellar regulon is modulated by the actual growth phase and temperature. Especially, flagellated Legionella are known to express genes during the transmissive phase of growth that are involved in the expression of virulence traits. It has been demonstrated that the alternative sigma-28 factor is part of the link between virulence expression and motility. In the following review, the structure of the flagellar regulon of L. pneumophila is discussed and compared to other flagellar systems of different Legionella species. Recently, it has been described that Legionella micdadei and Legionella fallonii contain a second putative partial flagellar system. Hence, the report will focus on flagellated and non-flagellated Legionella strains, phylogenetic relationships, the role and function of the alternative sigma factor (FliA) and its anti-sigma-28 factor (FlgM).

Published
2017
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50. Differential Substrate Usage and Metabolic Fluxes in Francisella tularensis Subspecies holarctica and Francisella novicida .

Author

Chen F, Rydzewski K, Kutzner E, Häuslein I, Schunder E, Wang X, Meighen-Berger K, Grunow R, Eisenreich W, and Heuner K

Subjects
Amino Acids metabolism, Cell Wall chemistry, Culture Media chemistry, Francisella growth & development, Francisella pathogenicity, Francisella tularensis growth & development, Francisella tularensis pathogenicity, Glucose metabolism, Glycerol metabolism, Polysaccharides metabolism, Serine metabolism, Staining and Labeling, Tularemia metabolism, Tularemia microbiology, Virulence, Francisella metabolism, Francisella tularensis metabolism, Metabolic Networks and Pathways
Abstract

Francisella tularensis is an intracellular pathogen for many animals causing the infectious disease, tularemia. Whereas F. tularensis subsp. holarctica is highly pathogenic for humans, F. novicida is almost avirulent for humans, but virulent for mice. In order to compare metabolic fluxes between these strains, we performed 13 C-labeling experiments with F. tularensis subsp. holarctica wild type (beaver isolate), F. tularensis subsp. holarctica strain LVS, or F. novicida strain U112 in complex media containing either [U- 13 C 6 ]glucose, [1,2- 13 C 2 ]glucose, [U- 13 C 3 ]serine, or [U- 13 C 3 ]glycerol. GC/MS-based isotopolog profiling of amino acids, polysaccharide-derived glucose, free fructose, amino sugars derived from the cell wall, fatty acids, 3-hydroxybutyrate, lactate, succinate and malate revealed uptake and metabolic usage of all tracers under the experimental conditions with glucose being the major carbon source for all strains under study. The labeling patterns of the F. tularensis subsp. holarctica wild type were highly similar to those of the LVS strain, but showed remarkable differences to the labeling profiles of the metabolites from the F. novicida strain. Glucose was directly used for polysaccharide and cell wall biosynthesis with higher rates in F. tularensis subsp. holarctica or metabolized, with higher rates in F. novicida, via glycolysis and the non-oxidative pentose phosphate pathway (PPP). Catabolic turnover of glucose via gluconeogenesis was also observed. In all strains, Ala was mainly synthesized from pyruvate, although no pathway from pyruvate to Ala is annotated in the genomes of F. tularensis and F. novicida . Glycerol efficiently served as a gluconeogenetic substrate in F. novicida , but only less in the F. tularensis subsp. holarctica strains. In any of the studied strains, serine did not serve as a major substrate and was not significantly used for gluconeogenesis under the experimental conditions. Rather, it was only utilized, at low rates, in downstream metabolic processes, e.g., via acetyl-CoA in the citrate cycle and for fatty acid biosynthesis, especially in the F. tularensis subsp. holarctica strains. In summary, the data reflect differential metabolite fluxes in F. tularensis subsp. holarctica and F. novicida suggesting that the different utilization of substrates could be related to host specificity and virulence of Francisella .

Published
2017
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