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1. Ein Modell zur interprofessionellen Arbeit im Krankenhaus

Author

Rusniok, C, Hansen, T, Jaschke, J, Karbach, U, Köberlein-Neu, J, Okumu, MR, Wurster, F, Pfaff, H, Rusniok, C, Hansen, T, Jaschke, J, Karbach, U, Köberlein-Neu, J, Okumu, MR, Wurster, F, and Pfaff, H

Published
2024

4. Comparative Genomics of Listeria Species

Author

Glaser, P., Frangeul, L., Buchrieser, C., Rusniok, C., Amend, A., Baquero, F., Berche, P., Bloecker, H., Brandt, P., Chakraborty, T., Charbit, A., Chetouani, F., Couvé, E., de Daruvar, A., Dehoux, P., Domann, E., Domínguez-Bernal, G., Duchaud, E., Durant, L., Dussurget, O., Fsihi, H., Portillo, F. Garcia-Del, Garrido, P., Gautier, L., Goebel, W., Gómez-López, N., Hain, T., Hauf, J., Jackson, D., Kaerst, U., Kreft, J., Kuhn, M., Kunst, F., Kurapkat, G., Madueño, E., Maitournam, A., Vicente, J. Mata, Ng, E., Nedjari, H., Nordsiek, G., Novella, S., de Pablos, B., Purcell, R., Remmel, B., Rose, M., Schlueter, T., Simoes, N., Tierrez, A., Voss, H., Wehland, J., and Cossart, P.

Published
2001

5. 'Wo ist die Akte?' – förderliche und hemmende Faktoren bei der Implementierung der EPA in deutschen Krankenhäusern

Author

Dittmer, K, Jaschke, J, Karbach, U, Köberlein-Neu, J, Okumu, MR, Pfaff, H, Rusniok, C, Wurster, F, and Beckmann, M

Subjects
ddc: 610, Medicine and health
Abstract

Hintergrund und Stand (inter)nationaler Forschung: Seit einigen Jahren stellen deutsche Krankenhäuser von der papierbasierten Patientenakte auf eine elektronische Akte/EPA um. Diese Umstellung wurde durch das Krankenhauszukunftsgesetz (KHZG) beschleunigt. Im KHZG sind weitere Bausteine der [zum vollständigen Text gelangen Sie über die oben angegebene URL]

Published
2022
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6. Prozessveränderungen durch den Wechsel von papierbasierter Dokumentation zur elektronischen Patientenakte im Krankenhaus – eine Analyse anhand des Use Cases Antibiotikatherapie

Author

Jaschke, J, Beckmann, M, Dittmer, K, Karbach, U, Okumu, MR, Pfaff, H, Rusniok, C, Wurster, F, and Köberlein-Neu, J

Subjects
ddc: 610, Medicine and health
Abstract

Hintergrund: Durch die voranschreitende digitale Transformation des Gesundheitswesens stellen immer mehr Krankenhäuser die verschiedenen Bestandteile ihrer klinischen Dokumentation von papierbasierter auf elektronische Patientenakte (EPA) um. Das Projekt eCoCo untersucht die Auswirkungen der EPA-Einführung [zum vollständigen Text gelangen Sie über die oben angegebene URL]

Published
2022
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7. Dokumentenanalyse als Methode für die vergleichende Auswertung von papierbasierten und elektronischen Patientenakten in einem deutschen Krankenhaus

Author

Wurster, F, Beckmann, M, Dittmer, K, Jaschke, J, Köberlein-Neu, J, Okumu, MR, Pfaff, H, Rusniok, C, and Karbach, U

Subjects
ddc: 610, Medicine and health
Abstract

Hintergrund: Im Zuge der digitalen Transformation des Gesundheitswesens sind die deutschen Krankenhäuser aufgefordert, die krankenhausinterne, papierbasierte Patientenakte durch eine elektronische Patientenakte (EPA) zu ersetzen. Eine qualitativ hochwertige Dokumentation ist nicht nur unerlässlich [zum vollständigen Text gelangen Sie über die oben angegebene URL]

Published
2022
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16. 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

17. The 102-Kilobase pgm Locus of Yersinia pestis: Sequence Analysis and Comparison of Selected Regions among Different Yersinia pestis and Yersinia pseudotuberculosis Strains

Author

Carmen Buchrieser, Rusniok C, Frangeul L, Couve E, Billault A, Kunst F, Carniel E, Glaser P, Génomique des Microorganismes Pathogènes, Institut Pasteur [Paris]-Centre National de la Recherche Scientifique (CNRS), Bactériologie Moléculaire et Médicale, Institut Pasteur [Paris], Fondation Jean Dausset - Centre d’Etudes du Polymorphisme Humain [Paris] (CEPH), C. Buchrieser received a grant from the Austrian Program for Advanced Research and Technology (APART). Sequence data for Y. pestisCO92 were obtained from the Sanger Centre website., Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS), and Institut Pasteur [Paris] (IP)

Subjects
DNA, Bacterial, MESH: Sequence Analysis, DNA, Yersinia pestis, Molecular Sequence Data, MESH: Yersinia pestis, Siderophores, MESH: Thiazoles, Molecular Genomics, MESH: Base Sequence, MESH: Sequence Analysis, MESH: Phenols, Phenols, [SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], MESH: Gene Library, Bacteriophages, MESH: Bacteriophages, MESH: Siderophores, Gene Library, MESH: Molecular Sequence Data, Base Sequence, Sequence Analysis, DNA, MESH: DNA, Bacterial, Thiazoles, Genes, Bacterial, Yersinia pseudotuberculosis, MESH: Yersinia pseudotuberculosis, Multigene Family, [SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/Virology, MESH: Multigene Family, MESH: Genes, Bacterial, [INFO.INFO-BI]Computer Science [cs]/Bioinformatics [q-bio.QM], Sequence Analysis
Abstract

International audience; We report the complete 119,443-bp sequence of the pgm locus from Yersinia pestis and its flanking regions. Sequence analysis confirms that the 102-kb unstable pgm locus is composed of two distinct parts: the pigmentation segment and a high-pathogenicity island (HPI) which carries virulence genes involved in iron acquisition (yersiniabactin biosynthetic gene cluster). Within the HPI, three genes coding for proteins related to phage proteins were uncovered. They are located at both extremities indicating that the entire HPI was acquired en bloc by phage-mediated horizontal transfer. We identified, within the pigmentation segment, two novel loci that may be involved in virulence: a fimbriae gene cluster and a locus probably encoding a two component regulatory system similar to the BvgAS regulatory system of Bordetella pertussis . Three genes containing frameshift mutations and two genes interrupted by insertion element insertion were found within this region. To investigate diversity among different Y. pestis and Yersinia pseudotuberculosis strains, the sequence of selected regions of the pgm locus and flanking regions were compared from 20 different Y. pestis and 10 Y. pseudotuberculosis strains. The results showed that the genes interrupted in Y. pestis are intact in Y. pseudotuberculosis . However, one of these mutations, in the bvgS homologue, is only present in Y. pestis strains of biovar Orientalis and not in those of the biovars Antiqua and Medievalis. The results obtained by analysis of variable positions in the sequence are in accordance with historical records, confirming that biovar Orientalis is the most recent lineage. Furthermore, sequence comparisons among 29 Yersinia strains suggest that Y. pestis is a recently emerged pathogen that is probably entering the initial phase of reductive evolution.

Published
1999

18. Analysis of the Legionella longbeachae Genome and Transcriptome Uncovers Unique Strategies to Cause Legionnaires' Disease

Author

Matic, I, Cazalet, C, Gomez-Valero, L, Rusniok, C, Lomma, M, Dervins-Ravault, D, Newton, HJ, Sansom, FM, Jarraud, S, Zidane, N, Ma, L, Bouchier, C, Etienne, J, Hartland, EL, Buchrieser, C, Matic, I, Cazalet, C, Gomez-Valero, L, Rusniok, C, Lomma, M, Dervins-Ravault, D, Newton, HJ, Sansom, FM, Jarraud, S, Zidane, N, Ma, L, Bouchier, C, Etienne, J, Hartland, EL, and Buchrieser, C

Abstract

Legionella pneumophila and L. longbeachae are two species of a large genus of bacteria that are ubiquitous in nature. L. pneumophila is mainly found in natural and artificial water circuits while L. longbeachae is mainly present in soil. Under the appropriate conditions both species are human pathogens, capable of causing a severe form of pneumonia termed Legionnaires' disease. Here we report the sequencing and analysis of four L. longbeachae genomes, one complete genome sequence of L. longbeachae strain NSW150 serogroup (Sg) 1, and three draft genome sequences another belonging to Sg1 and two to Sg2. The genome organization and gene content of the four L. longbeachae genomes are highly conserved, indicating strong pressure for niche adaptation. Analysis and comparison of L. longbeachae strain NSW150 with L. pneumophila revealed common but also unexpected features specific to this pathogen. The interaction with host cells shows distinct features from L. pneumophila, as L. longbeachae possesses a unique repertoire of putative Dot/Icm type IV secretion system substrates, eukaryotic-like and eukaryotic domain proteins, and encodes additional secretion systems. However, analysis of the ability of a dotA mutant of L. longbeachae NSW150 to replicate in the Acanthamoeba castellanii and in a mouse lung infection model showed that the Dot/Icm type IV secretion system is also essential for the virulence of L. longbeachae. In contrast to L. pneumophila, L. longbeachae does not encode flagella, thereby providing a possible explanation for differences in mouse susceptibility to infection between the two pathogens. Furthermore, transcriptome analysis revealed that L. longbeachae has a less pronounced biphasic life cycle as compared to L. pneumophila, and genome analysis and electron microscopy suggested that L. longbeachae is encapsulated. These species-specific differences may account for the different environmental niches and disease epidemiology of these two Legionella species

Published
2010

19. Complete Genome Sequence of the Animal Pathogen Listeria ivanovii, Which Provides Insights into Host Specificities and Evolution of the Genus Listeria

Author

Buchrieser, C., primary, Rusniok, C., additional, Garrido, P., additional, Hain, T., additional, Scortti, M., additional, Lampidis, R., additional, Karst, U., additional, Chakraborty, T., additional, Cossart, P., additional, Kreft, J., additional, Vazquez-Boland, J. A., additional, Goebel, W., additional, and Glaser, P., additional

Published
2011
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20. Specific Real-Time PCR for Simultaneous Detection and Identification of Legionella pneumophila Serogroup 1 in Water and Clinical Samples

Author

Mérault, N., primary, Rusniok, C., additional, Jarraud, S., additional, Gomez-Valero, L., additional, Cazalet, C., additional, Marin, M., additional, Brachet, E., additional, Aegerter, P., additional, Gaillard, J. L., additional, Etienne, J., additional, Herrmann, J. L., additional, Lawrence, C., additional, and Buchrieser, C., additional

Published
2011
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24. The 102-kilobase pgm locus of Yersinia pestis: sequence analysis and comparison of selected regions among different Yersinia pestis and Yersinia pseudotuberculosis strains.

Author

Buchrieser, C, Rusniok, C, Frangeul, L, Couve, E, Billault, A, Kunst, F, Carniel, E, and Glaser, P

Abstract

We report the complete 119,443-bp sequence of the pgm locus from Yersinia pestis and its flanking regions. Sequence analysis confirms that the 102-kb unstable pgm locus is composed of two distinct parts: the pigmentation segment and a high-pathogenicity island (HPI) which carries virulence genes involved in iron acquisition (yersiniabactin biosynthetic gene cluster). Within the HPI, three genes coding for proteins related to phage proteins were uncovered. They are located at both extremities indicating that the entire HPI was acquired en bloc by phage-mediated horizontal transfer. We identified, within the pigmentation segment, two novel loci that may be involved in virulence: a fimbriae gene cluster and a locus probably encoding a two component regulatory system similar to the BvgAS regulatory system of Bordetella pertussis. Three genes containing frameshift mutations and two genes interrupted by insertion element insertion were found within this region. To investigate diversity among different Y. pestis and Yersinia pseudotuberculosis strains, the sequence of selected regions of the pgm locus and flanking regions were compared from 20 different Y. pestis and 10 Y. pseudotuberculosis strains. The results showed that the genes interrupted in Y. pestis are intact in Y. pseudotuberculosis. However, one of these mutations, in the bvgS homologue, is only present in Y. pestis strains of biovar Orientalis and not in those of the biovars Antiqua and Medievalis. The results obtained by analysis of variable positions in the sequence are in accordance with historical records, confirming that biovar Orientalis is the most recent lineage. Furthermore, sequence comparisons among 29 Yersinia strains suggest that Y. pestis is a recently emerged pathogen that is probably entering the initial phase of reductive evolution.

Published
1999

25. Identification of new loci involved in adhesion of Listeria monocytogenes to eukaryotic cells

Author

Milohanic, E., Pron, B., Berche, P., Gaillard, J. -L, Glaser, P., Amend, A., Baquero-Mochales, F., Bloecker, H., Brandt, P., Carmen Buchrieser, Chakraborty, T., Charbit, A., Couvé, E., Daruvar, A., Dehoux, P., Domann, E., Dominguez-Bernal, G., Durand, L., Entian, K. -D, Frangeul, L., Fsihi, H., Garcia Del Portillo, F., Garrido, P., Goebel, W., Gomez-Lopez, N., Hain, T., Hauf, J., Jackson, D., Kreft, J., Kunst, F., Mata-Vicente, J., Ng, E., Nordsiek, G., Perez-Diaz, J. C., Remmel, B., Rose, M., Rusniok, C., Schlueter, T., Vazquez-Boland, J. A., Voss, H., Wehland, J., and Cossart, P.

26. Comparative genomics and transcriptomics of lineages I, II, and III strains of Listeria monocytogenes

Author

Hain Torsten, Ghai Rohit, Billion André, Kuenne Carsten, Steinweg Christiane, Izar Benjamin, Mohamed Walid, Mraheil Mobarak, Domann Eugen, Schaffrath Silke, Kärst Uwe, Goesmann Alexander, Oehm Sebastian, Pühler Alfred, Merkl Rainer, Vorwerk Sonja, Glaser Philippe, Garrido Patricia, Rusniok Christophe, Buchrieser Carmen, Goebel Werner, and Chakraborty Trinad

Subjects
Listeria monocytogenes, Lineage, Comparative genomics, Gene decay, Comparative transcriptomics, Flagella, Prophage, Monocin, Isogenic deletion mutants, Murine infection, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Listeria monocytogenes is a food-borne pathogen that causes infections with a high-mortality rate and has served as an invaluable model for intracellular parasitism. Here, we report complete genome sequences for two L. monocytogenes strains belonging to serotype 4a (L99) and 4b (CLIP80459), and transcriptomes of representative strains from lineages I, II, and III, thereby permitting in-depth comparison of genome- and transcriptome -based data from three lineages of L. monocytogenes. Lineage III, represented by the 4a L99 genome is known to contain strains less virulent for humans. Results The genome analysis of the weakly pathogenic L99 serotype 4a provides extensive evidence of virulence gene decay, including loss of several important surface proteins. The 4b CLIP80459 genome, unlike the previously sequenced 4b F2365 genome harbours an intact inlB invasion gene. These lineage I strains are characterized by the lack of prophage genes, as they share only a single prophage locus with other L. monocytogenes genomes 1/2a EGD-e and 4a L99. Comparative transcriptome analysis during intracellular growth uncovered adaptive expression level differences in lineages I, II and III of Listeria, notable amongst which was a strong intracellular induction of flagellar genes in strain 4a L99 compared to the other lineages. Furthermore, extensive differences between strains are manifest at levels of metabolic flux control and phosphorylated sugar uptake. Intriguingly, prophage gene expression was found to be a hallmark of intracellular gene expression. Deletion mutants in the single shared prophage locus of lineage II strain EGD-e 1/2a, the lma operon, revealed severe attenuation of virulence in a murine infection model. Conclusion Comparative genomics and transcriptome analysis of L. monocytogenes strains from three lineages implicate prophage genes in intracellular adaptation and indicate that gene loss and decay may have led to the emergence of attenuated lineages.

Published
2012
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27. Extensive recombination events and horizontal gene transfer shaped the Legionella pneumophila genomes

Author

Rouy Zoé, Vacherie Benoit, Jarraud Sophie, Rusniok Christophe, Gomez-Valero Laura, Barbe Valerie, Medigue Claudine, Etienne Jerome, and Buchrieser Carmen

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Legionella pneumophila is an intracellular pathogen of environmental protozoa. When humans inhale contaminated aerosols this bacterium may cause a severe pneumonia called Legionnaires' disease. Despite the abundance of dozens of Legionella species in aquatic reservoirs, the vast majority of human disease is caused by a single serogroup (Sg) of a single species, namely L. pneumophila Sg1. To get further insights into genome dynamics and evolution of Sg1 strains, we sequenced strains Lorraine and HL 0604 1035 (Sg1) and compared them to the available sequences of Sg1 strains Paris, Lens, Corby and Philadelphia, resulting in a comprehensive multigenome analysis. Results We show that L. pneumophila Sg1 has a highly conserved and syntenic core genome that comprises the many eukaryotic like proteins and a conserved repertoire of over 200 Dot/Icm type IV secreted substrates. However, recombination events and horizontal gene transfer are frequent. In particular the analyses of the distribution of nucleotide polymorphisms suggests that large chromosomal fragments of over 200 kbs are exchanged between L. pneumophila strains and contribute to the genome dynamics in the natural population. The many secretion systems present might be implicated in exchange of these fragments by conjugal transfer. Plasmids also play a role in genome diversification and are exchanged among strains and circulate between different Legionella species. Conclusion Horizontal gene transfer among bacteria and from eukaryotes to L. pneumophila as well as recombination between strains allows different clones to evolve into predominant disease clones and others to replace them subsequently within relatively short periods of time.

Published
2011
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28. Differences in changes of data completeness after the implementation of an electronic medical record in three surgical departments of a German hospital-a longitudinal comparative document analysis.

Author

Wurster F, Herrmann C, Beckmann M, Cecon-Stabel N, Dittmer K, Hansen T, Jaschke J, Köberlein-Neu J, Okumu MR, Pfaff H, Rusniok C, and Karbach U

Subjects
Humans, Germany, Longitudinal Studies, Document Analysis, Electronic Health Records standards, Data Accuracy, Surgery Department, Hospital standards
Abstract

Purpose: The European health data space promises an efficient environment for research and policy-making. However, this data space is dependent on high data quality. The implementation of electronic medical record systems has a positive impact on data quality, but improvements are not consistent across empirical studies. This study aims to analyze differences in the changes of data quality and to discuss these against distinct stages of the electronic medical record's adoption process., Methods: Paper-based and electronic medical records from three surgical departments were compared, assessing changes in data quality after the implementation of an electronic medical record system. Data quality was operationalized as completeness of documentation. Ten information that must be documented in both record types (e.g. vital signs) were coded as 1 if they were documented, otherwise as 0. Chi-Square-Tests were used to compare percentage completeness of these ten information and t-tests to compare mean completeness per record type., Results: A total of N = 659 records were analyzed. Overall, the average completeness improved in the electronic medical record, with a change from 6.02 (SD = 1.88) to 7.2 (SD = 1.77). At the information level, eight information improved, one deteriorated and one remained unchanged. At the level of departments, changes in data quality show expected differences., Conclusion: The study provides evidence that improvements in data quality could depend on the process how the electronic medical record is adopted in the affected department. Research is needed to further improve data quality through implementing new electronical medical record systems or updating existing ones., (© 2024. The Author(s).)

Published
2024
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29. The unique Legionella longbeachae capsule favors intracellular replication and immune evasion.

Author

Schmidt S, Mondino S, Gomez-Valero L, Escoll P, Mascarenhas DPA, Gonçalves A, Camara PHM, Garcia Rodriguez FJ, Rusniok C, Sachse M, Moya-Nilges M, Fontaine T, Zamboni DS, and Buchrieser C

Subjects
Animals, Mice, Humans, Legionnaires' Disease immunology, Legionnaires' Disease microbiology, Macrophages microbiology, Macrophages immunology, Virulence Factors metabolism, Acanthamoeba castellanii microbiology, Virulence, Bacterial Capsules immunology, Bacterial Capsules metabolism, Legionella longbeachae immunology, Immune Evasion
Abstract

Legionella longbeachae and Legionella pneumophila are the most common causative agents of Legionnaires' disease. While the clinical manifestations caused by both species are similar, species-specific differences exist in environmental niches, disease epidemiology, and genomic content. One such difference is the presence of a genomic locus predicted to encode a capsule. Here, we show that L. longbeachae indeed expresses a capsule in post-exponential growth phase as evidenced by electron microscopy analyses, and that capsule expression is abrogated when deleting a capsule transporter gene. Capsule purification and its analysis via HLPC revealed the presence of a highly anionic polysaccharide that is absent in the capsule mutant. The capsule is important for replication and virulence in vivo in a mouse model of infection and in the natural host Acanthamoeba castellanii. It has anti-phagocytic function when encountering innate immune cells such as human macrophages and it is involved in the low cytokine responses in mice and in human monocyte derived macrophages, thus dampening the innate immune response. Thus, the here characterized L. longbeachae capsule is a novel virulence factor, unique among the known Legionella species, which may aid L. longbeachae to survive in its specific niches and which partly confers L. longbeachae its unique infection characteristics., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Schmidt et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2024
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30. The Implementation of an Electronic Medical Record in a German Hospital and the Change in Completeness of Documentation: Longitudinal Document Analysis.

Author

Wurster F, Beckmann M, Cecon-Stabel N, Dittmer K, Hansen TJ, Jaschke J, Köberlein-Neu J, Okumu MR, Rusniok C, Pfaff H, and Karbach U

Abstract

Background: Electronic medical records (EMR) are considered a key component of the health care system's digital transformation. The implementation of an EMR promises various improvements, for example, in the availability of information, coordination of care, or patient safety, and is required for big data analytics. To ensure those possibilities, the included documentation must be of high quality. In this matter, the most frequently described dimension of data quality is the completeness of documentation. In this regard, little is known about how and why the completeness of documentation might change after the implementation of an EMR., Objective: This study aims to compare the completeness of documentation in paper-based medical records and EMRs and to discuss the possible impact of an EMR on the completeness of documentation., Methods: A retrospective document analysis was conducted, comparing the completeness of paper-based medical records and EMRs. Data were collected before and after the implementation of an EMR on an orthopaedical ward in a German academic teaching hospital. The anonymized records represent all treated patients for a 3-week period each. Unpaired, 2-tailed t tests, chi-square tests, and relative risks were calculated to analyze and compare the mean completeness of the 2 record types in general and of 10 specific items in detail (blood pressure, body temperature, diagnosis, diet, excretions, height, pain, pulse, reanimation status, and weight). For this purpose, each of the 10 items received a dichotomous score of 1 if it was documented on the first day of patient care on the ward; otherwise, it was scored as 0., Results: The analysis consisted of 180 medical records. The average completeness was 6.25 (SD 2.15) out of 10 in the paper-based medical record, significantly rising to an average of 7.13 (SD 2.01) in the EMR (t 178 =-2.469; P=.01; d=-0.428). When looking at the significant changes of the 10 items in detail, the documentation of diet (P<.001), height (P<.001), and weight (P<.001) was more complete in the EMR, while the documentation of diagnosis (P<.001), excretions (P=.02), and pain (P=.008) was less complete in the EMR. The completeness remained unchanged for the documentation of pulse (P=.28), blood pressure (P=.47), body temperature (P=.497), and reanimation status (P=.73)., Conclusions: Implementing EMRs can influence the completeness of documentation, with a possible change in both increased and decreased completeness. However, the mechanisms that determine those changes are often neglected. There are mechanisms that might facilitate an improved completeness of documentation and could decrease or increase the staff's burden caused by documentation tasks. Research is needed to take advantage of these mechanisms and use them for mutual profit in the interests of all stakeholders., Trial Registration: German Clinical Trials Register DRKS00023343; https://drks.de/search/de/trial/DRKS00023343., (©Florian Wurster, Marina Beckmann, Natalia Cecon-Stabel, Kerstin Dittmer, Till Jes Hansen, Julia Jaschke, Juliane Köberlein-Neu, Mi-Ran Okumu, Carsten Rusniok, Holger Pfaff, Ute Karbach. Originally published in JMIR Medical Informatics (https://medinform.jmir.org), 19.01.2024.)

Published
2024
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31. The respiratory tract microbiome, the pathogen load, and clinical interventions define severity of bacterial pneumonia.

Author

Pérez-Cobas AE, Ginevra C, Rusniok C, Jarraud S, and Buchrieser C

Subjects
Humans, Respiratory System, Dysbiosis, Pneumonia, Bacterial diagnosis, Coinfection, Microbiota
Abstract

Bacterial pneumonia is a considerable problem worldwide. Here, we follow the inter-kingdom respiratory tract microbiome (RTM) of a unique cohort of 38 hospitalized patients (n = 97 samples) with pneumonia caused by Legionella pneumophila. The RTM composition is characterized by diversity drops early in hospitalization and ecological species replacement. RTMs with the highest bacterial and fungal loads show low diversity and pathogen enrichment, suggesting high biomass as a biomarker for secondary and/or co-infections. The RTM structure is defined by a "commensal" cluster associated with a healthy RTM and a "pathogen" enriched one, suggesting that the cluster equilibrium drives the microbiome to recovery or dysbiosis. Legionella biomass correlates with disease severity and co-morbidities, while clinical interventions influence the RTM dynamics. Fungi, archaea, and protozoa seem to contribute to progress of pneumonia. Thus, the interplay of the RTM equilibrium, the pathogen load dynamics, and clinical interventions play a critical role in patient recovery., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2023
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32. Legionella para-effectors target chromatin and promote bacterial replication.

Author

Schator D, Mondino S, Berthelet J, Di Silvestre C, Ben Assaya M, Rusniok C, Rodrigues-Lima F, Wehenkel A, Buchrieser C, and Rolando M

Subjects
Humans, Chromatin metabolism, Bacterial Proteins metabolism, Histones metabolism, Legionella metabolism, Legionella pneumophila, Legionnaires' Disease genetics
Abstract

Legionella pneumophila replicates intracellularly by secreting effectors via a type IV secretion system. One of these effectors is a eukaryotic methyltransferase (RomA) that methylates K14 of histone H3 (H3K14me3) to counteract host immune responses. However, it is not known how L. pneumophila infection catalyses H3K14 methylation as this residue is usually acetylated. Here we show that L. pneumophila secretes a eukaryotic-like histone deacetylase (LphD) that specifically targets H3K14ac and works in synergy with RomA. Both effectors target host chromatin and bind the HBO1 histone acetyltransferase complex that acetylates H3K14. Full activity of RomA is dependent on the presence of LphD as H3K14 methylation levels are significantly decreased in a ∆lphD mutant. The dependency of these two chromatin-modifying effectors on each other is further substantiated by mutational and virulence assays revealing that the presence of only one of these two effectors impairs intracellular replication, while a double knockout (∆lphD∆romA) can restore intracellular replication. Uniquely, we present evidence for "para-effectors", an effector pair, that actively and coordinately modify host histones to hijack the host response. The identification of epigenetic marks modulated by pathogens has the potential to lead to the development of innovative therapeutic strategies to counteract bacterial infection and strengthening host defences., (© 2023. The Author(s).)

Published
2023
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33. The Analyzation of Change in Documentation due to the Introduction of Electronic Patient Records in Hospitals-A Systematic Review.

Author

Wurster F, Fütterer G, Beckmann M, Dittmer K, Jaschke J, Köberlein-Neu J, Okumu MR, Rusniok C, Pfaff H, and Karbach U

Subjects
Hospitals, Humans, Documentation, Electronic Health Records
Abstract

The major impact on healthcare through the ongoing digital transformation and new technologies results in opportunities for improving quality of care. Electronic patient records (EPR) are a substantial part in this transformation, even though their influence on documentation remains often unclear. This review aims to answer the question of which effect the introduction of the EPR has on the documentation proper in hospitals. To do this, studies are reviewed that analyze the documentation itself, rather than merely conducting interviews or surveys about it. Several databases were searched in this systematic review (PubMed including PubMed, PubMed Central and Medline; PDQ Evidence; Web of Science Core Collection; CINHAL). To be included, studies needed to analyze written documentation and empirical data, be in either German or English language, published between 2010 and 2020, conducted in a hospital setting, focused on transition from paper-based to electronic patient records, and peer reviewed. Quantitative, qualitative and mixed methods studies were included. Studies were independently screened for inclusion by two researchers in three stages (title, abstract, full text) and, in case of disagreement, discussed with a third person from the research team until consensus was reached. The main outcome assessed was whether the studies indicated a negative or positive effect on documentation (e.g. changing the completeness of documentation) by introducing an EPR. Mixed Methods Appraisal Tool was used to assess the individual risk of bias in the included studies. Overall, 264 studies were found. Of these, 17 met the inclusion criteria and were included in this review. Of all included studies, 11 of 17 proved a positive effect of the introduction of the EPR on documentation such as an improved completeness or guideline adherence of the documentation. Six of 17 showed a mixed effect with positive and negative or no changes. No study showed an exclusively negative effect. Most studies found a positive effect of EPR introduction on documentation. However, it is difficult to draw specific conclusions about how the EPR affects or does not affect documentation since the included studies examined a variety of outcomes. As a result, various scenarios are conceivable with higher or reduced burden for practitioners. Additionally, the impact on treatment remains unclear., (© 2022. The Author(s).)

Published
2022
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34. Genomic erosion and horizontal gene transfer shape functional differences of the ExlA toxin in Pseudomonas spp.

Author

Job V, Gomez-Valero L, Renier A, Rusniok C, Bouillot S, Chenal-Francisque V, Gueguen E, Adrait A, Robert-Genthon M, Jeannot K, Panchev P, Elsen S, Fauvarque MO, Couté Y, Buchrieser C, and Attrée I

Abstract

Two-partner secretion (TPS) is widespread in the bacterial world. The pore-forming TPS toxin ExlA of Pseudomonas aeruginosa is conserved in pathogenic and environmental Pseudomonas . While P. chlororaphis and P. entomophila displayed ExlA-dependent killing, P. putida did not cause damage to eukaryotic cells. ExlA proteins interacted with epithelial cell membranes; however, only ExlA Pch induced the cleavage of the adhesive molecule E-cadherin. ExlA proteins participated in insecticidal activity toward the larvae of Galleria mellonella and the fly Drosophila melanogaster. Evolutionary analyses demonstrated that the differences in the C-terminal domains are partly due to horizontal movements of the operon within the genus Pseudomonas. Reconstruction of the evolutionary history revealed the complex horizontal acquisitions. Together, our results provide evidence that conserved TPS toxins in environmental Pseudomonas play a role in bacteria-insect interactions and discrete differences in CTDs may determine their specificity and mode of action toward eukaryotic cells., Competing Interests: The authors declare no competing interests., (© 2022 The Authors.)

Published
2022
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35. Translocated Legionella pneumophila small RNAs mimic eukaryotic microRNAs targeting the host immune response.

Author

Sahr T, Escoll P, Rusniok C, Bui S, Pehau-Arnaudet G, Lavieu G, and Buchrieser C

Subjects
Bacterial Proteins metabolism, Cell Line, DEAD Box Protein 58, Eukaryota genetics, Extracellular Vesicles, Humans, Immunity, Innate, Interleukin-1 Receptor-Associated Kinases, Legionnaires' Disease microbiology, Receptors, Immunologic, Signal Transduction, Eukaryota immunology, Host-Pathogen Interactions immunology, Legionella pneumophila metabolism, Legionnaires' Disease immunology, MicroRNAs genetics, MicroRNAs metabolism
Abstract

Legionella pneumophila is an intracellular bacterial pathogen that can cause a severe form of pneumonia in humans, a phenotype evolved through interactions with aquatic protozoa in the environment. Here, we show that L. pneumophila uses extracellular vesicles to translocate bacterial small RNAs (sRNAs) into host cells that act on host defence signalling pathways. The bacterial sRNA RsmY binds to the UTR of ddx58 (RIG-I encoding gene) and cRel, while tRNA-Phe binds ddx58 and irak1 collectively reducing expression of RIG-I, IRAK1 and cRel, with subsequent downregulation of IFN-β. Thus, RsmY and tRNA-Phe are bacterial trans-kingdom regulatory RNAs downregulating selected sensor and regulator proteins of the host cell innate immune response. This miRNA-like regulation of the expression of key sensors and regulators of immunity is a feature of L. pneumophila host-pathogen communication and likely represents a general mechanism employed by bacteria that interact with eukaryotic hosts., (© 2022. The Author(s).)

Published
2022
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36. Reverting the mode of action of the mitochondrial F O F 1 -ATPase by Legionella pneumophila preserves its replication niche.

Author

Escoll P, Platon L, Dramé M, Sahr T, Schmidt S, Rusniok C, and Buchrieser C

Subjects
Adenosine Triphosphate genetics, Bacterial Proteins metabolism, Legionella pneumophila genetics, Mitochondria genetics, Mitochondrial Proteins genetics, Mitochondrial Proteins metabolism, Proton-Translocating ATPases metabolism, Type IV Secretion Systems metabolism, Adenosine Triphosphate metabolism, Bacterial Proteins genetics, Legionella pneumophila metabolism, Mitochondria metabolism, Proton-Translocating ATPases deficiency
Abstract

Legionella pneumophila, the causative agent of Legionnaires' disease, a severe pneumonia, injects via a type 4 secretion system (T4SS) more than 300 proteins into macrophages, its main host cell in humans. Certain of these proteins are implicated in reprogramming the metabolism of infected cells by reducing mitochondrial oxidative phosphorylation (OXPHOS) early after infection. Here. we show that despite reduced OXPHOS, the mitochondrial membrane potential (Δ ψ m ) is maintained during infection of primary human monocyte-derived macrophages (hMDMs). We reveal that L. pneumophila reverses the ATP-synthase activity of the mitochondrial F O F 1 -ATPase to ATP-hydrolase activity in a T4SS-dependent manner, which leads to a conservation of the Δ ψ m , preserves mitochondrial polarization, and prevents macrophage cell death. Analyses of T4SS effectors known to target mitochondrial functions revealed that Lp Spl is partially involved in conserving the Δ ψ m , but not LncP and MitF. The inhibition of the L. pneumophila -induced 'reverse mode' of the F O F 1 -ATPase collapsed the Δ ψ m and caused cell death in infected cells. Single-cell analyses suggested that bacterial replication occurs preferentially in hMDMs that conserved the Δ ψ m and showed delayed cell death. This direct manipulation of the mode of activity of the F O F 1 -ATPase is a newly identified feature of L. pneumophila allowing to delay host cell death and thereby to preserve the bacterial replication niche during infection., Competing Interests: PE, LP, MD, TS, SS, CR, CB No competing interests declared, (© 2021, Escoll et al.)

Published
2021
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37. Electronic patient record and its effects on social aspects of interprofessional collaboration and clinical workflows in hospitals (eCoCo): a mixed methods study protocol.

Author

Beckmann M, Dittmer K, Jaschke J, Karbach U, Köberlein-Neu J, Nocon M, Rusniok C, Wurster F, and Pfaff H

Subjects
Cooperative Behavior, Hospitals, Humans, Workflow, Electronic Health Records, Interprofessional Relations
Abstract

Background: The need for and usage of electronic patient records within hospitals has steadily increased over the last decade for economic reasons as well as the proceeding digitalization. While there are numerous benefits from this system, the potential risks of using electronic patient records for hospitals, patients and healthcare professionals must also be discussed. There is a lack in research, particularly regarding effects on healthcare professionals and their daily work in health services. The study eCoCo aims to gain insight into changes in interprofessional collaboration and clinical workflows resulting from introducing electronic patient records., Methods: eCoCo is a multi-center case study integrating mixed methods from qualitative and quantitative social research. The case studies include three hospitals that undergo the process of introducing electronic patient records. Data are collected before and after the introduction of electronic patient records using participant observation, interviews, focus groups, time measurement, patient and employee questionnaires and a questionnaire to measure the level of digitalization. Furthermore, documents (patient records) as well as structural and administrative data are gathered. To analyze the interprofessional collaboration qualitative network analyses, reconstructive-hermeneutic analyses and document analyses are conducted. The workflow analyses, patient and employee assessment analyses and classification within the clinical adoption meta-model are conducted to provide insights into clinical workflows., Discussion: This study will be the first to investigate the effects of introducing electronic patient records on interprofessional collaboration and clinical workflows from the perspective of healthcare professionals. Thereby, it will consider patients' safety, legal and ethical concerns and quality of care. The results will help to understand the organization and thereby improve the performance of health services working with electronic patient records., Trial Registration: The study was registered at the German clinical trials register (DRKS00023343, Pre-Results) on November 17, 2020.

Published
2021
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38. Persistent Legionnaires' Disease and Associated Antibiotic Treatment Engender a Highly Disturbed Pulmonary Microbiome Enriched in Opportunistic Microorganisms.

Author

Pérez-Cobas AE, Ginevra C, Rusniok C, Jarraud S, and Buchrieser C

Subjects
Adult, Aged, Bacteria genetics, Bacteria isolation & purification, Bronchoalveolar Lavage Fluid microbiology, Bronchoalveolar Lavage Fluid parasitology, Drug Resistance genetics, Eukaryota genetics, Eukaryota isolation & purification, Female, Fungi genetics, Fungi isolation & purification, Genomics, High-Throughput Nucleotide Sequencing, Humans, Legionella pneumophila drug effects, Legionella pneumophila pathogenicity, Longitudinal Studies, Male, Opportunistic Infections microbiology, Opportunistic Infections parasitology, Whole Genome Sequencing, Anti-Bacterial Agents therapeutic use, Legionnaires' Disease drug therapy, Lung microbiology, Microbiota drug effects, Pneumonia, Bacterial drug therapy
Abstract

Despite the importance of pneumonia to public health, little is known about the composition of the lung microbiome during infectious diseases, such as pneumonia, and how it evolves during antibiotic therapy. To study the possible relation of the pulmonary microbiome to the severity and outcome of this respiratory disease, we analyzed the dynamics of the pathogen and the human lung microbiome during persistent infections caused by the bacterium Legionella pneumophila and their evolution during antimicrobial treatment. We collected 10 bronchoalveolar lavage fluid samples from three patients during long-term hospitalization due to pneumonia and performed a unique longitudinal study of the interkingdom microbiome, analyzing the samples for presence of bacteria, archaea, fungi, and protozoa by high-throughput Illumina sequencing of marker genes. The lung microbiome of the patients was characterized by a strong predominance of the pathogen, a low diversity of the bacterial fraction, and an increased presence of opportunistic microorganisms. The fungal fraction was more stable than the bacterial fraction. During long-term treatment, no genomic changes or antibiotic resistance-associated mutations that could explain the persistent infection occurred, according to whole-genome sequencing analyses of the pathogen. After antibiotic treatment, the microbiome did not recover rapidly but was mainly constituted of antibiotic-resistant species and enriched in bacteria, archaea, fungi, or protozoa associated with pathogenicity. The lung microbiome seems to contribute to nonresolving Legionella pneumonia, as it is strongly disturbed during infection and enriched in opportunistic and/or antibiotic-resistant bacteria and microorganisms, including fungi, archaea, and protozoa that are often associated with infections. IMPORTANCE The composition and dynamics of the lung microbiome during pneumonia are not known, although the lung microbiome might influence the severity and outcome of this infectious disease, similar to what was shown for the microbiome at other body sites. Here we report the findings of a comprehensive analysis of the lung microbiome composition of three patients with long-term pneumonia due to L. pneumophila and its evolution during antibiotic treatment. This work adds to our understanding of how the microbiome changes during disease and antibiotic treatment and points to microorganisms and their interactions that might be beneficial. In addition to bacteria and fungi, our analyses included archaea and eukaryotes (protozoa), showing that both are present in the pulmonary microbiota and that they might also play a role in the response to the microbiome disturbance., (Copyright © 2020 Pérez-Cobas et al.)

Published
2020
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39. More than 18,000 effectors in the Legionella genus genome provide multiple, independent combinations for replication in human cells.

Author

Gomez-Valero L, Rusniok C, Carson D, Mondino S, Pérez-Cobas AE, Rolando M, Pasricha S, Reuter S, Demirtas J, Crumbach J, Descorps-Declere S, Hartland EL, Jarraud S, Dougan G, Schroeder GN, Frankel G, and Buchrieser C

Subjects
Bacterial Proteins chemistry, Bacterial Proteins genetics, Bacterial Secretion Systems genetics, Computational Biology methods, Evolution, Molecular, Genomics methods, Humans, Intracellular Space microbiology, Legionella classification, Phylogeny, Protein Domains, Genome, Bacterial, Legionella physiology, Legionellosis microbiology
Abstract

The genus Legionella comprises 65 species, among which Legionella pneumophila is a human pathogen causing severe pneumonia. To understand the evolution of an environmental to an accidental human pathogen, we have functionally analyzed 80 Legionella genomes spanning 58 species. Uniquely, an immense repository of 18,000 secreted proteins encoding 137 different eukaryotic-like domains and over 200 eukaryotic-like proteins is paired with a highly conserved type IV secretion system (T4SS). Specifically, we show that eukaryotic Rho- and Rab-GTPase domains are found nearly exclusively in eukaryotes and Legionella Translocation assays for selected Rab-GTPase proteins revealed that they are indeed T4SS secreted substrates. Furthermore, F-box, U-box, and SET domains were present in >70% of all species, suggesting that manipulation of host signal transduction, protein turnover, and chromatin modification pathways are fundamental intracellular replication strategies for legionellae. In contrast, the Sec-7 domain was restricted to L. pneumophila and seven other species, indicating effector repertoire tailoring within different amoebae. Functional screening of 47 species revealed 60% were competent for intracellular replication in THP-1 cells, but interestingly, this phenotype was associated with diverse effector assemblages. These data, combined with evolutionary analysis, indicate that the capacity to infect eukaryotic cells has been acquired independently many times within the genus and that a highly conserved yet versatile T4SS secretes an exceptional number of different proteins shaped by interdomain gene transfer. Furthermore, we revealed the surprising extent to which legionellae have coopted genes and thus cellular functions from their eukaryotic hosts, providing an understanding of how dynamic reshuffling and gene acquisition have led to the emergence of major human pathogens., Competing Interests: The authors declare no conflict of interest.

Published
2019
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41. Dynamics and impact of homologous recombination on the evolution of Legionella pneumophila.

Author

David S, Sánchez-Busó L, Harris SR, Marttinen P, Rusniok C, Buchrieser C, Harrison TG, and Parkhill J

Subjects
Bacterial Outer Membrane Proteins genetics, Genome, Bacterial, Legionnaires' Disease microbiology, Lipopolysaccharides biosynthesis, Lipopolysaccharides genetics, Phylogeny, Recombinant Proteins genetics, Evolution, Molecular, Homologous Recombination genetics, Legionella pneumophila genetics, Legionnaires' Disease genetics
Abstract

Legionella pneumophila is an environmental bacterium and the causative agent of Legionnaires' disease. Previous genomic studies have shown that recombination accounts for a high proportion (>96%) of diversity within several major disease-associated sequence types (STs) of L. pneumophila. This suggests that recombination represents a potentially important force shaping adaptation and virulence. Despite this, little is known about the biological effects of recombination in L. pneumophila, particularly with regards to homologous recombination (whereby genes are replaced with alternative allelic variants). Using newly available population genomic data, we have disentangled events arising from homologous and non-homologous recombination in six major disease-associated STs of L. pneumophila (subsp. pneumophila), and subsequently performed a detailed characterisation of the dynamics and impact of homologous recombination. We identified genomic "hotspots" of homologous recombination that include regions containing outer membrane proteins, the lipopolysaccharide (LPS) region and Dot/Icm effectors, which provide interesting clues to the selection pressures faced by L. pneumophila. Inference of the origin of the recombined regions showed that isolates have most frequently imported DNA from isolates belonging to their own clade, but also occasionally from other major clades of the same subspecies. This supports the hypothesis that the possibility for horizontal exchange of new adaptations between major clades of the subspecies may have been a critical factor in the recent emergence of several clinically important STs from diverse genomic backgrounds. However, acquisition of recombined regions from another subspecies, L. pneumophila subsp. fraseri, was rarely observed, suggesting the existence of a recombination barrier and/or the possibility of ongoing speciation between the two subspecies. Finally, we suggest that multi-fragment recombination may occur in L. pneumophila, whereby multiple non-contiguous segments that originate from the same molecule of donor DNA are imported into a recipient genome during a single episode of recombination.

Published
2017
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42. The Legionella pneumophila genome evolved to accommodate multiple regulatory mechanisms controlled by the CsrA-system.

Author

Sahr T, Rusniok C, Impens F, Oliva G, Sismeiro O, Coppée JY, and Buchrieser C

Subjects
Bacterial Proteins metabolism, Base Sequence, Blotting, Northern, Evolution, Molecular, Feedback, Physiological, Gene Expression Profiling methods, Glycolysis genetics, Host-Pathogen Interactions, Humans, Legionella pneumophila metabolism, Legionella pneumophila pathogenicity, Legionnaires' Disease microbiology, Mutation, Oligonucleotide Array Sequence Analysis, Operon genetics, Pentose Phosphate Pathway genetics, Protein Binding, RNA, Messenger genetics, RNA, Messenger metabolism, Repressor Proteins metabolism, Riboswitch genetics, Tandem Mass Spectrometry, Virulence genetics, Bacterial Proteins genetics, Gene Expression Regulation, Bacterial, Genome, Bacterial genetics, Legionella pneumophila genetics, Repressor Proteins genetics
Abstract

The carbon storage regulator protein CsrA regulates cellular processes post-transcriptionally by binding to target-RNAs altering translation efficiency and/or their stability. Here we identified and analyzed the direct targets of CsrA in the human pathogen Legionella pneumophila. Genome wide transcriptome, proteome and RNA co-immunoprecipitation followed by deep sequencing of a wild type and a csrA mutant strain identified 479 RNAs with potential CsrA interaction sites located in the untranslated and/or coding regions of mRNAs or of known non-coding sRNAs. Further analyses revealed that CsrA exhibits a dual regulatory role in virulence as it affects the expression of the regulators FleQ, LqsR, LetE and RpoS but it also directly regulates the timely expression of over 40 Dot/Icm substrates. CsrA controls its own expression and the stringent response through a regulatory feedback loop as evidenced by its binding to RelA-mRNA and links it to quorum sensing and motility. CsrA is a central player in the carbon, amino acid, fatty acid metabolism and energy transfer and directly affects the biosynthesis of cofactors, vitamins and secondary metabolites. We describe the first L. pneumophila riboswitch, a thiamine pyrophosphate riboswitch whose regulatory impact is fine-tuned by CsrA, and identified a unique regulatory mode of CsrA, the active stabilization of RNA anti-terminator conformations inside a coding sequence preventing Rho-dependent termination of the gap operon through transcriptional polarity effects. This allows L. pneumophila to regulate the pentose phosphate pathway and the glycolysis combined or individually although they share genes in a single operon. Thus the L. pneumophila genome has evolved to acclimate at least five different modes of regulation by CsrA giving it a truly unique position in its life cycle.

Published
2017
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43. Multiple major disease-associated clones of Legionella pneumophila have emerged recently and independently.

Author

David S, Rusniok C, Mentasti M, Gomez-Valero L, Harris SR, Lechat P, Lees J, Ginevra C, Glaser P, Ma L, Bouchier C, Underwood A, Jarraud S, Harrison TG, Parkhill J, and Buchrieser C

Subjects
Humans, Legionella pneumophila classification, Legionella pneumophila isolation & purification, Legionella pneumophila pathogenicity, Mutation, Phylogeny, Polymorphism, Single Nucleotide, Selection, Genetic, Virulence genetics, Evolution, Molecular, Legionella pneumophila genetics, Legionnaires' Disease microbiology
Abstract

Legionella pneumophila is an environmental bacterium and the leading cause of Legionnaires' disease. Just five sequence types (ST), from more than 2000 currently described, cause nearly half of disease cases in northwest Europe. Here, we report the sequence and analyses of 364 L. pneumophila genomes, including 337 from the five disease-associated STs and 27 representative of the species diversity. Phylogenetic analyses revealed that the five STs have independent origins within a highly diverse species. The number of de novo mutations is extremely low with maximum pairwise single-nucleotide polymorphisms (SNPs) ranging from 19 (ST47) to 127 (ST1), which suggests emergences within the last century. Isolates sampled geographically far apart differ by only a few SNPs, demonstrating rapid dissemination. These five STs have been recombining recently, leading to a shared pool of allelic variants potentially contributing to their increased disease propensity. The oldest clone, ST1, has spread globally; between 1940 and 2000, four new clones have emerged in Europe, which show long-distance, rapid dispersal. That a large proportion of clinical cases is caused by recently emerged and internationally dispersed clones, linked by convergent evolution, is surprising for an environmental bacterium traditionally considered to be an opportunistic pathogen. To simultaneously explain recent emergence, rapid spread and increased disease association, we hypothesize that these STs have adapted to new man-made environmental niches, which may be linked by human infection and transmission., (© 2016 David et al.; Published by Cold Spring Harbor Laboratory Press.)

Published
2016
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44. 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, Médigue C, Glöckner G, Hartland EL, and Buchrieser C

Subjects
Amoeba microbiology, Base Sequence, Cell Line, Disease Outbreaks, High-Throughput Nucleotide Sequencing, Humans, Legionella pneumophila pathogenicity, Legionnaires' Disease microbiology, Macrophages microbiology, Molecular Sequence Annotation, Species Specificity, Genome, Bacterial, Interspersed Repetitive Sequences genetics, Legionella pneumophila genetics, Legionnaires' Disease genetics
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
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45. [Host epigenetic targeting by Legionella pneumophila].

Author

Rolando M, Rusniok C, Margueron R, and Buchrieser C

Subjects
Bacterial Proteins metabolism, Bacterial Proteins physiology, Chromatin Assembly and Disassembly genetics, Histone Methyltransferases, Histone-Lysine N-Methyltransferase metabolism, Histones metabolism, Humans, Legionnaires' Disease immunology, Macrophages microbiology, Methylation, Epigenesis, Genetic physiology, Host-Pathogen Interactions genetics, Legionella pneumophila physiology, Legionnaires' Disease genetics
Published
2013
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46. Reductive evolution in Streptococcus agalactiae and the emergence of a host adapted lineage.

Author

Rosinski-Chupin I, Sauvage E, Mairey B, Mangenot S, Ma L, Da Cunha V, Rusniok C, Bouchier C, Barbe V, and Glaser P

Subjects
Animals, Gene Regulatory Networks genetics, Genomics, Host-Pathogen Interactions, Humans, INDEL Mutation genetics, Sequence Deletion genetics, Species Specificity, Virulence Factors genetics, Adaptation, Physiological, Evolution, Molecular, Phylogeny, Streptococcus agalactiae genetics, Streptococcus agalactiae physiology
Abstract

Background: During host specialization, inactivation of genes whose function is no more required is favored by changes in selective constraints and evolutionary bottlenecks. The Gram positive bacteria Streptococcus agalactiae (also called GBS), responsible for septicemia and meningitis in neonates also emerged during the seventies as a cause of severe epidemics in fish farms. To decipher the genetic basis for the emergence of these highly virulent GBS strains and of their adaptation to fish, we have analyzed the genomic sequence of seven strains isolated from fish and other poikilotherms., Results: Comparative analysis shows that the two groups of GBS strains responsible for fish epidemic diseases are only distantly related. While strains belonging to the clonal complex 7 cannot be distinguished from their human CC7 counterparts according to their gene content, strains belonging to the ST260-261 types probably diverged a long time ago. In this lineage, specialization to the fish host was correlated with a massive gene inactivation and broad changes in gene expression. We took advantage of the low level of sequence divergence between GBS strains and of the emergence of sublineages to reconstruct the different steps involved in this process. Non-homologous recombination was found to have played a major role in the genome erosion., Conclusions: Our results show that the early phase of genome reduction during host specialization mostly involves accumulation of small and likely reversible indels, followed by a second evolutionary step marked by a higher frequency of large deletions.

Published
2013
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47. Deep sequencing defines the transcriptional map of L. pneumophila and identifies growth phase-dependent regulated ncRNAs implicated in virulence.

Author

Sahr T, Rusniok C, Dervins-Ravault D, Sismeiro O, Coppee JY, and Buchrieser C

Subjects
5' Untranslated Regions, Acanthamoeba castellanii microbiology, Bacterial Proteins genetics, Base Sequence, Chromosome Mapping, Consensus Sequence, High-Throughput Nucleotide Sequencing, Legionella pneumophila growth & development, Legionella pneumophila pathogenicity, Molecular Sequence Annotation, Molecular Sequence Data, Nucleic Acid Conformation, Operon, Promoter Regions, Genetic, RNA, Bacterial metabolism, RNA, Small Untranslated metabolism, Sequence Analysis, RNA, Transcription Initiation Site, Transcriptome, Virulence genetics, Gene Expression Regulation, Bacterial, Legionella pneumophila genetics, RNA, Bacterial genetics, RNA, Small Untranslated genetics
Abstract

The bacterium Legionella pneumophila is found ubiquitously in aquatic environments and can cause a severe pneumonia in humans called Legionnaires' disease. How this bacterium switches from intracellular to extracellular life and adapts to different hosts and environmental conditions is only partly understood. Here we used RNA deep sequencing from exponentially (replicative) and post exponentially (virulent) grown L. pneumophila to analyze the transcriptional landscape of its entire genome. We established the complete operon map and defined 2561 primary transcriptional start sites (TSS). Interestingly, 187 of the 1805 TSS of protein-coding genes contained tandem promoters of which 93 show alternative usage dependent on the growth phase. Similarly, over 60% of 713 here identified ncRNAs are phase dependently regulated. Analysis of their conservation among the seven L. pneumophila genomes sequenced revealed many strain specific differences suggesting that L. pneumophila contains a highly dynamic pool of ncRNAs. Analysis of six ncRNAs exhibiting the same expression pattern as virulence genes showed that two, Lppnc0584 and Lppnc0405 are indeed involved in intracellular growth of L. pneumophila in A. castellanii. Furthermore, L. pneumophila encodes a small RNA named RsmX that functions together with RsmY and RsmZ in the LetA-CsrA regulatory pathway, crucial for the switch to the virulent phenotype. Together our data provide new insight into the transcriptional organization of the L. pneumophila genome, identified many new ncRNAs and will provide a framework for the understanding of virulence and adaptation properties of L. pneumophila.

Published
2012
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48. Extensive recombination events and horizontal gene transfer shaped the Legionella pneumophila genomes.

Author

Gomez-Valero L, Rusniok C, Jarraud S, Vacherie B, Rouy Z, Barbe V, Medigue C, Etienne J, and Buchrieser C

Subjects
Biological Evolution, Legionella pneumophila classification, Phylogeny, Polymorphism, Genetic, Sequence Analysis, DNA, Gene Transfer, Horizontal, Genome, Bacterial, Legionella pneumophila genetics, Recombination, Genetic
Abstract

Background: Legionella pneumophila is an intracellular pathogen of environmental protozoa. When humans inhale contaminated aerosols this bacterium may cause a severe pneumonia called Legionnaires' disease. Despite the abundance of dozens of Legionella species in aquatic reservoirs, the vast majority of human disease is caused by a single serogroup (Sg) of a single species, namely L. pneumophila Sg1. To get further insights into genome dynamics and evolution of Sg1 strains, we sequenced strains Lorraine and HL 0604 1035 (Sg1) and compared them to the available sequences of Sg1 strains Paris, Lens, Corby and Philadelphia, resulting in a comprehensive multigenome analysis., Results: We show that L. pneumophila Sg1 has a highly conserved and syntenic core genome that comprises the many eukaryotic like proteins and a conserved repertoire of over 200 Dot/Icm type IV secreted substrates. However, recombination events and horizontal gene transfer are frequent. In particular the analyses of the distribution of nucleotide polymorphisms suggests that large chromosomal fragments of over 200 kbs are exchanged between L. pneumophila strains and contribute to the genome dynamics in the natural population. The many secretion systems present might be implicated in exchange of these fragments by conjugal transfer. Plasmids also play a role in genome diversification and are exchanged among strains and circulate between different Legionella species., Conclusion: Horizontal gene transfer among bacteria and from eukaryotes to L. pneumophila as well as recombination between strains allows different clones to evolve into predominant disease clones and others to replace them subsequently within relatively short periods of time.

Published
2011
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49. Comparative and functional genomics of legionella identified eukaryotic like proteins as key players in host-pathogen interactions.

Author

Gomez-Valero L, Rusniok C, Cazalet C, and Buchrieser C

Abstract

Although best known for its ability to cause severe pneumonia in people whose immune defenses are weakened, Legionella pneumophila and Legionella longbeachae are two species of a large genus of bacteria that are ubiquitous in nature, where they parasitize protozoa. Adaptation to the host environment and exploitation of host cell functions are critical for the success of these intracellular pathogens. The establishment and publication of the complete genome sequences of L. pneumophila and L. longbeachae isolates paved the way for major breakthroughs in understanding the biology of these organisms. In this review we present the knowledge gained from the analyses and comparison of the complete genome sequences of different L. pneumophila and L. longbeachae strains. Emphasis is given on putative virulence and Legionella life cycle related functions, such as the identification of an extended array of eukaryotic like proteins, many of which have been shown to modulate host cell functions to the pathogen's advantage. Surprisingly, many of the eukaryotic domain proteins identified in L. pneumophila as well as many substrates of the Dot/Icm type IV secretion system essential for intracellular replication are different between these two species, although they cause the same disease. Finally, evolutionary aspects regarding the eukaryotic like proteins in Legionella are discussed.

Published
2011
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50. Double-stranded RNA adenosine deaminase ADAR-1-induced hypermutated genomes among inactivated seasonal influenza and live attenuated measles virus vaccines.

Author

Suspène R, Petit V, Puyraimond-Zemmour D, Aynaud MM, Henry M, Guétard D, Rusniok C, Wain-Hobson S, and Vartanian JP

Subjects
Adenosine Deaminase genetics, Animals, Base Sequence, Cell Line, Chlorocebus aethiops, Humans, Influenza Vaccines genetics, Influenza, Human virology, Measles virology, Measles Vaccine genetics, Molecular Sequence Data, RNA-Binding Proteins, Seasons, Vaccines, Attenuated genetics, Vero Cells, Adenosine Deaminase metabolism, Genome, Viral, Influenza A virus genetics, Influenza, Human enzymology, Measles enzymology, Measles virus genetics, Mutation
Abstract

We sought to examine ADAR-1 editing of measles and influenza virus genomes derived from inactivated seasonal influenza and live attenuated measles virus vaccines grown on chicken cells as the culture substrate. Using highly sensitive 3DI-PCR (R. Suspène et al., Nucleic Acids Res. 36:e72, 2008), it was possible to show that ADAR-1 could hyperdeaminate adenosine residues in both measles virus and influenza virus A genomes. Detailed analysis of the dinucleotide editing context showed preferences for 5'ArA and 5'UrA, which is typical of editing in mammalian cells. The hyperedited mutant frequency, including genomes and antigenomes, was a log greater for influenza virus compared to measles virus, suggesting a greater sensitivity to restriction by ADAR-1.

Published
2011
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