Untersuchungen zur Inaktivierung und Reaktivierung der Coenzym B12-abhaengigen Glycerin-Dehydratasen aus Citrobacter freundii und Clostridium pasteurianum / Studies on the inactivation and reactivation of the coenzyme B12-dependent glycerol dehydratases of Citrobacter freundii and Clostridium pasteurianum

Seifert, Corinna

03 May 2001

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Citrobacter freundii

Glycerin-Dehydratase

Inaktivierung

Reaktivierung

Coenzym B12

Citrobacter freundii

glycerol dehydratase

inactivation

reactivation

coenzyme B12

42.3

WUE200

Isolation, Purification and Structure Elucidation of New Secondary Metabolites from Terrestrial, Marine, and Ruminal Microorganisms / Isolation, Purification and Structure Elucidation of New Secondary Metabolites from Terrestrial, Marine, and Ruminal Microorganisms

Zendah, Imene

13 July 2012

No description available.

540 Chemie

Naturstoffe

Chemistry

Kryptogamen Krankheiten

ruminale

Phenazin

Pseudomonas aeruginosa

Citrobacter freundii

cryptogamic dis-eases

ruminal

phenazine

Pseudomonas aeruginosa

Citrobacter freundii

The role of NLRs in induction and resolution of intestinal inflammation

Song-Zhao, George Xiaoxi

January 2012

Innate immune activation is thought to play a central role in IBD pathogenesis because genetic polymorphisms in NOD2 and NLRP3, cytosolic innate immune receptors belonging to the NLR family, have been associated with IBD susceptibility. However, the mechanisms through which NLR mutations predispose to IBD remain unclear. The aim of this project was to dissect the functional roles of different NLRs in intestinal inflammation. Using the well-established DSS-induced colitis model as well as experimental models of IBD based on infection with Helicobacter hepaticus, we found that Nod2 expression was significantly increased at the peak of intestinal inflammation, and remained elevated throughout the resolution process. This observation suggests a possible role for Nod2 in the resolution of inflammation. Conversely, upon infection with the acute intestinal pathogen Citrobacter rodentium, Nlrp3-/- mice suffered from increased bacterial colonization as early as 3 days post infection, resulting in exacerbated intestinal inflammation and severe weight loss. Analysis of irradiation bone marrow chimeras showed that the protection required Nlrp3 activation in the non-haematopoietic compartment. Furthermore, this protective mechanism was independent of the inflammasome-associated cytokines IL-1β or IL-18. Therefore, this study implicates Nlrp3 activation in intestinal tissue cells as having a crucial role in controlling pathogenic bacterial colonization, providing a potential mechanism by which NLRP3 polymorphisms could lead to increased susceptibility to IBD.

616.344

Interferon-gamma Mediated Host Responses to Enteric Pathogen, Citrobacter rodentium

Reid-Yu, Sarah A.

06 1900

Diarrheal disease caused by attaching and effacing pathogens, such as enteropathogenic E. coli (EPEC), is a worldwide health concern. As the second leading cause of diarrheal-related death in young children, new investigations into host defense against EPEC, as well as future therapeutics, is greatly needed. To elucidate the host immune responses to these enteric pathogens, the attaching and effacing (A/E) murine pathogen, Citrobacter rodentium, has been widely used. It is well understood that C. rodentium infection induces a robust Th1 response within the host. Yet how these pleiotropic IFNγ immune responses are initiated, propagated, and the accessory immune cell types involved remains poorly understood. In this thesis, I investigated how innate immune cell types such as natural killer cells, which are significant producers of IFNγ, mediate these Th1 directed responses. This work identified that both NK and NK-like innate lymphoid type 1 cells (ILC1s) are capable of producing IFNγ in response to C. rodentium, and NK cells rapidly increase in numbers within the colon during the early stages of infection. Depletion of these cell types causes a delayed Th1 CD4+ T cell response within the colon, resulting in increased bacterial load, and greater degree of colonic pathology at later time points. Additionally, depletion of these cells results in decreased CXCL9 chemokine expression in mice. I later determined that CXCL9 exhibited direct antimicrobial action against Citrobacter in vitro. Depletion of this chemokine in vivo, in the absence of adaptive immune responses, or its receptor CXCR3, results in increased mortality rates, elevated bacterial loads, greater degree of pathology, and deeper penetration of bacteria within the colonic crypts. These data indicate a potential direct antimicrobial role for this IFNγ-induced chemokine, independent of its known properties for the homing of T cells to the site of infection. These findings demonstrate the importance of accessory IFNγ-producing immune cells in not only mediating Th1 CD4+ T cells responses, but also other innate host defense mechanisms against A/E pathogens. / Thesis / Doctor of Philosophy (PhD)

Estudo genotípico e fenotípico de bacilos Gram-negativos produtores de carbapenemase do tipo New Delhi metalo-β-lactamase / Genotypic and fenotypic study of Gram-negative bacilli producers carbapenemase type New Delhi metallo--&#946-lactamase.

Campos, Juliana Coutinho

31 August 2017

Os carbapenêmicos são os antimicrobianos mais amplamente utilizados no tratamento empírico de infecções graves por bacilos Gram-negativos. A pressão seletiva gerada pelo uso desses antimicrobianos ao longo das últimas três décadas contribuiu para a disseminação de enterobactérias e Gram-negativos não fermentadores produtores de carbapenemases, particularmente as do tipo KPC e NDM. Os genes que codificam essas enzimas usualmente estão localizados em plasmídeos e/ou transpósons. A hipótese atualmente mais aceita é que o gene blaNDM-1 seja uma quimera criada em Acinetobacter baumannii. A NDM-1 foi descrita em paciente proveniente da Índia e subsequentemente evidenciou-se sua ampla disseminação nesse país. A epidemiologia que tem sido observada nos casos detectados na Europa e Estados Unidos tem sido viagem à Índia, ou seja, sem casos autóctones. No Brasil, os primeiros casos foram identificados no Rio Grande do Sul, e a seguir no Rio de Janeiro e em São Paulo. Diferentemente dos casos da Europa e América do Norte, os casos do Brasil não tem relação epidemiológica com a Índia. O sequenciamento integral dos plasmídeos e cromossomos albergando o gene blaNDM permitirá entender como ocorre a disseminação desse mecanismo de resistência no Brasil. Para isso, foi avaliado o perfil de susceptibilidade dos isolados, bem como a capacidade conjugativa e clonalidade. Das vinte e oito amostras utilizadas neste trabalho, treze delas pertencem à espécie Enterobacter hormaechei, uma à espécie Citrobacter freundii, sete à espécie Escherichia coli, quatro à Klebsiella pneumoniae e três ao gênero Acinetobacter spp. Os primeiros isolados incluídos neste estudo (Escherichia coli e Enterobacter hormaechei produzindo NDM-1) foram isolados em agosto de 2013, de uma mesma amostra de swab retal de um paciente do Rio de Janeiro que nunca viajou para o exterior. O sequenciamento completo do DNA plasmidial utilizando a plataforma Illumina e a anotação de ambos os plasmídeos albergando o gene blaNDM-1 revelou que estes pertencem a grupos de incompatibilidade diferentes, IncFIIK (E. hormaechei) e IncX3 (E. coli), e abrigam um novo transpóson composto designado Tn3000. A comparação da sequência nucleotídica do Tn3000 com aquelas disponíveis no GenBank evidencia que a mesma estrutura está presente em plasmídeos de isolados da cidade de Porto Alegre e também em diferentes continentes. As espécies de Acinetobacter (A. radioresistens, A. ursingii e A. guillouiae) isoladas em São Paulo e Porto Alegre, possuem o gene blaNDM-1 albergados em um mesmo plasmídeo não tipável de 41.087 pb. A avaliação da clonalidade dos isolados de Enterobacter hormaechei \"subsp. oharae\" mostrou dois perfis diferentes através da técnica de PFGE, sendo que todos os microrganismos foram isolados de um surto no mesmo hospital no Rio de Janeiro. Isolados de Klebsiella pneumoniae de uma mesma paciente internada em hospital em Salvador, de sítios distintos - swab retal, hemocultura e urina, em ordem cronológica - obtiveram o mesmo perfil clonal pela técnica de PFGE. O mesmo ocorreu com três isolados de Escherichia coli, de um mesmo paciente do Rio de Janeiro, em amostras de swab retal. Os achados deste estudo evidenciam que no Brasil, Nepal, Marrocos e Índia há uma disseminação do gene blaNDM-1 mediada por um novo elemento móvel designado Tn3000 em enterobactérias. A detecção de um mesmo plasmídeo em diferentes espécies de Acinetobacter evidencia que neste gênero bacteriano, no Brasil, a disseminação do gene blaNDM-1 ocorre por conjugação. / Carbapenems are the antimicrobials most widely used in the empirical treatment of severe infections caused by Gram-negative bacilli. The selective pressure generated by the use of these antibiotics over the last three decades has contributed to the spread of enterobacteria and Gram-negative non-fermenting producing carbapenemases, mainly KPC and NDM. Genes encoding these enzymes are usually located in plasmids and/or transposons. Currently the most accepted hypothesis is that the blaNDM-1 gene is a chimera created in Acinetobacter baumannii. The NDM-1 was described in a patient from India and subsequently was reported to be broadly disseminate in this country. The epidemiology that has been observed in cases detected in Europe and United States is traveling to India, but no autochthonous cases. In Brazil, the first cases were identified in Rio Grande do Sul, and then in Rio de Janeiro and São Paulo. Differently from the cases described in Europe and North America, the cases from Brazil have no epidemiological link with India. The complete sequencing of plasmids and chromosomes harboring blaNDM gene will understanding how the dissemination of this resistance mechanism in Brazil occurs. In this work we will be evaluate the susceptibility profile of the isolates, and their conjugal capacity and clonality. Of the twenty-eight samples used in this study, thirteen of them belong to the species Enterobacter hormaechei, one to Citrobacter freundii, seven to Escherichia coli, four to Klebsiella pneumoniae and three to the genus Acinetobacter sp. The first two isolates included in this study (Escherichia coli and Enterobacter hormaechei) were isolated in August 2013, from the same rectal swab sample from a patient from Rio de Janeiro that never traveled abroad. Complete sequencing of plasmid DNA using Illumina platform and annotation of both plasmids harboring the blaNDM-1 gene revealed that they belong to different incompatibility groups, IncFIIK (E. hormaechei) and IncX3 (E. coli), and are harbor to a new transposon designated Tn3000. The comparison of the Tn3000 nucleotide sequence with those available at GenBank shows that the same structure is present in plasmids from other Porto Alegre and also in different continents. The Acinetobacter species (A. radioresistens, A. ursingii and A. guillouiae) isolated in São Paulo and Porto Alegre, have the blaNDM-1 gene harbored in a single non-typing plasmid of 41,087 bp. The evaluation of clonal relationship of Enterobacter hormaechei \"subsp. oharae\" showed two different profiles by PFGE technique; of note all microorganisms were isolated from an outbreak in the same hospital in Rio de Janeiro. Isolates of Klebsiella pneumoniae from a single patient hospitalized in Salvador, from different anatomical sites - rectal swab, blood culture and urine, in chronological order - obtained the same clonal profile by the PFGE technique. The same occurred with three Escherichia coli isolates, from the same patient from Rio de Janeiro, in swab rectal strains. Our findings suggest that in Brazil, Nepal, Morocco and India there is a spread of blaNDM-1 gene mediated by Tn3000 in enterobacteria. The detection of a same plasmid in different species of Acinetobacter shows that in this bacterial genus, in Brazil, the dissemination of the blaNDM-1 gene occurs by conjugation.

Acinetobacter sp.

Acinetobacter spp.

blaNDM-1

BlaNDM-1

Citrobacter freundii

Citrobacter freundii

Enterobacter hormaechei

Enterobacter hormaechei

Escherichia coli

Escherichia coli

IncFIIK

IncFIIK

IncX3

IncX3

Klebsiella pneumoniae

Klebsiella pneumoniae

Plasmídeos

Plasmids

Tn3000

Tn3000

Transposon

Transpóson

Evolution expérimentale et spécialisation dans le paysage adaptatif d'un gradient environnemental / Experimental evolution and specialization in the adaptive landscape of an environmental gradient

Harmand, Noémie

21 June 2017

De nos jours plus que jamais, il est nécessaire d’anticiper et de comprendre les réponses évolutives des organismes vivants, face à des habitats instables et hétérogènes. Mais à quel point cela est-il possible ? Reproduire l’ensemble du déroulé d’une trajectoire évolutive nécessite de pouvoir décrire, d’une part, le « matériel » disponible pour s’adapter (c’est-à-dire les effets phénotypiques associés à la variabilité génétique produite), d’autre part, comment agissent les forces évolutives, associées à un contexte écologique, pour aboutir à un certain « assemblage » de ce matériel. Dans sa version la plus simple, ce processus évolutif peut-être décrit par plusieurs cycles d’évènements de mutations-sélection conduisant à l’adaptation d’une population à son environnement. Cette dynamique correspond assez bien à celle qui est décrite par les populations bactériennes dans les expériences d’évolution contrôlées en laboratoire. Parallèlement, les modèles de paysages adaptatifs (phénotypiques), et en particulier le modèle géométrique de Fisher, sont des outils très puissants pour formuler des prédictions générales et quantitativement testables sur ces trajectoires évolutives. Cependant, ils restent très théoriques et ont été largement pensés dans un contexte écologique simplifié. Au cours de cette thèse, nous avons identifié les déterminants (mutationnels et sélectifs) des trajectoires évolutives à long terme de populations bactériennes s’adaptant dans différents contextes environnementaux. Une première partie des résultats est mise en lumière par la validation expérimentale et la reconstruction de la topographie du paysage adaptatif généré par différentes doses d’un antibiotique, le long d’un gradient. Une deuxième partie expérimentale vise à intégrer une composante biotique (une autre bactérie) à ce même contexte environnemental. Les processus évolutifs intervenant au cours d’une coévolution à long terme maintenue par sélection fréquence-dépendante, y sont étudiés. / Today more than ever, it is crucial to anticipate and understand the evolutionary responses of living organisms faced with heterogeneous and unstable habitats. But to what extent is this possible? To reproduce an entire evolutionary trajectory, we must first describe the “material” available for adaptation (e.g. the phenotypic effects associated with the existing and novel genetic variability), and second describe the way evolutionary forces, shaped by the ecological context, result in specific “assemblies” of this material. At its simplest, this evolutionary process can be described by several cycles of mutation-selection events, leading to the adaptation of a population to an environment. This process is reflected in the evolutionary trajectories of bacterial lineages undergoing controlled experimental evolution in the lab. Concurrently, adaptive (phenotypic) landscape models, and especially Fisher’s geometrical model of adaptation, are powerful tools to formulate general predictions, which can then be tested on such evolutionary trajectories. However, they remain highly theoretical, and are widely conceived in a simple ecological context. In this thesis, we identified the (mutational and selective) determinants of the evolutionary trajectories of bacterial lines adapting to various environmental contexts. A first set of results regards evolution along a gradient of antibiotic doses, and their relevance is highlighted by experimental validation and by the reconstruction of the underlying adaptive landscape. A second experimental part integrates a biotic component (another bacteria) to the same environmental context. The evolutionary processes acting throughout the resulting long-term coevolution – maintained by frequency-dependent selection – are studied.

Modèle géométrique de Fisher

Trajectoire évolutive

Compromis adaptatifs

Sélection fréquence-Dépendante

Escherichia coli

Citrobacter freundii

Fisher’s Geometrical Model

Evolutionary trajectory

Fitness trade-Offs

Frequency-Dependent selection

Escherichia coli

Citrobacter freundii

Estudo genotípico e fenotípico de bacilos Gram-negativos produtores de carbapenemase do tipo New Delhi metalo-β-lactamase / Genotypic and fenotypic study of Gram-negative bacilli producers carbapenemase type New Delhi metallo--&#946-lactamase.

Juliana Coutinho Campos

31 August 2017

Os carbapenêmicos são os antimicrobianos mais amplamente utilizados no tratamento empírico de infecções graves por bacilos Gram-negativos. A pressão seletiva gerada pelo uso desses antimicrobianos ao longo das últimas três décadas contribuiu para a disseminação de enterobactérias e Gram-negativos não fermentadores produtores de carbapenemases, particularmente as do tipo KPC e NDM. Os genes que codificam essas enzimas usualmente estão localizados em plasmídeos e/ou transpósons. A hipótese atualmente mais aceita é que o gene blaNDM-1 seja uma quimera criada em Acinetobacter baumannii. A NDM-1 foi descrita em paciente proveniente da Índia e subsequentemente evidenciou-se sua ampla disseminação nesse país. A epidemiologia que tem sido observada nos casos detectados na Europa e Estados Unidos tem sido viagem à Índia, ou seja, sem casos autóctones. No Brasil, os primeiros casos foram identificados no Rio Grande do Sul, e a seguir no Rio de Janeiro e em São Paulo. Diferentemente dos casos da Europa e América do Norte, os casos do Brasil não tem relação epidemiológica com a Índia. O sequenciamento integral dos plasmídeos e cromossomos albergando o gene blaNDM permitirá entender como ocorre a disseminação desse mecanismo de resistência no Brasil. Para isso, foi avaliado o perfil de susceptibilidade dos isolados, bem como a capacidade conjugativa e clonalidade. Das vinte e oito amostras utilizadas neste trabalho, treze delas pertencem à espécie Enterobacter hormaechei, uma à espécie Citrobacter freundii, sete à espécie Escherichia coli, quatro à Klebsiella pneumoniae e três ao gênero Acinetobacter spp. Os primeiros isolados incluídos neste estudo (Escherichia coli e Enterobacter hormaechei produzindo NDM-1) foram isolados em agosto de 2013, de uma mesma amostra de swab retal de um paciente do Rio de Janeiro que nunca viajou para o exterior. O sequenciamento completo do DNA plasmidial utilizando a plataforma Illumina e a anotação de ambos os plasmídeos albergando o gene blaNDM-1 revelou que estes pertencem a grupos de incompatibilidade diferentes, IncFIIK (E. hormaechei) e IncX3 (E. coli), e abrigam um novo transpóson composto designado Tn3000. A comparação da sequência nucleotídica do Tn3000 com aquelas disponíveis no GenBank evidencia que a mesma estrutura está presente em plasmídeos de isolados da cidade de Porto Alegre e também em diferentes continentes. As espécies de Acinetobacter (A. radioresistens, A. ursingii e A. guillouiae) isoladas em São Paulo e Porto Alegre, possuem o gene blaNDM-1 albergados em um mesmo plasmídeo não tipável de 41.087 pb. A avaliação da clonalidade dos isolados de Enterobacter hormaechei \"subsp. oharae\" mostrou dois perfis diferentes através da técnica de PFGE, sendo que todos os microrganismos foram isolados de um surto no mesmo hospital no Rio de Janeiro. Isolados de Klebsiella pneumoniae de uma mesma paciente internada em hospital em Salvador, de sítios distintos - swab retal, hemocultura e urina, em ordem cronológica - obtiveram o mesmo perfil clonal pela técnica de PFGE. O mesmo ocorreu com três isolados de Escherichia coli, de um mesmo paciente do Rio de Janeiro, em amostras de swab retal. Os achados deste estudo evidenciam que no Brasil, Nepal, Marrocos e Índia há uma disseminação do gene blaNDM-1 mediada por um novo elemento móvel designado Tn3000 em enterobactérias. A detecção de um mesmo plasmídeo em diferentes espécies de Acinetobacter evidencia que neste gênero bacteriano, no Brasil, a disseminação do gene blaNDM-1 ocorre por conjugação. / Carbapenems are the antimicrobials most widely used in the empirical treatment of severe infections caused by Gram-negative bacilli. The selective pressure generated by the use of these antibiotics over the last three decades has contributed to the spread of enterobacteria and Gram-negative non-fermenting producing carbapenemases, mainly KPC and NDM. Genes encoding these enzymes are usually located in plasmids and/or transposons. Currently the most accepted hypothesis is that the blaNDM-1 gene is a chimera created in Acinetobacter baumannii. The NDM-1 was described in a patient from India and subsequently was reported to be broadly disseminate in this country. The epidemiology that has been observed in cases detected in Europe and United States is traveling to India, but no autochthonous cases. In Brazil, the first cases were identified in Rio Grande do Sul, and then in Rio de Janeiro and São Paulo. Differently from the cases described in Europe and North America, the cases from Brazil have no epidemiological link with India. The complete sequencing of plasmids and chromosomes harboring blaNDM gene will understanding how the dissemination of this resistance mechanism in Brazil occurs. In this work we will be evaluate the susceptibility profile of the isolates, and their conjugal capacity and clonality. Of the twenty-eight samples used in this study, thirteen of them belong to the species Enterobacter hormaechei, one to Citrobacter freundii, seven to Escherichia coli, four to Klebsiella pneumoniae and three to the genus Acinetobacter sp. The first two isolates included in this study (Escherichia coli and Enterobacter hormaechei) were isolated in August 2013, from the same rectal swab sample from a patient from Rio de Janeiro that never traveled abroad. Complete sequencing of plasmid DNA using Illumina platform and annotation of both plasmids harboring the blaNDM-1 gene revealed that they belong to different incompatibility groups, IncFIIK (E. hormaechei) and IncX3 (E. coli), and are harbor to a new transposon designated Tn3000. The comparison of the Tn3000 nucleotide sequence with those available at GenBank shows that the same structure is present in plasmids from other Porto Alegre and also in different continents. The Acinetobacter species (A. radioresistens, A. ursingii and A. guillouiae) isolated in São Paulo and Porto Alegre, have the blaNDM-1 gene harbored in a single non-typing plasmid of 41,087 bp. The evaluation of clonal relationship of Enterobacter hormaechei \"subsp. oharae\" showed two different profiles by PFGE technique; of note all microorganisms were isolated from an outbreak in the same hospital in Rio de Janeiro. Isolates of Klebsiella pneumoniae from a single patient hospitalized in Salvador, from different anatomical sites - rectal swab, blood culture and urine, in chronological order - obtained the same clonal profile by the PFGE technique. The same occurred with three Escherichia coli isolates, from the same patient from Rio de Janeiro, in swab rectal strains. Our findings suggest that in Brazil, Nepal, Morocco and India there is a spread of blaNDM-1 gene mediated by Tn3000 in enterobacteria. The detection of a same plasmid in different species of Acinetobacter shows that in this bacterial genus, in Brazil, the dissemination of the blaNDM-1 gene occurs by conjugation.

Acinetobacter spp.

BlaNDM-1

Citrobacter freundii

Enterobacter hormaechei

Escherichia coli

IncFIIK

IncX3

Klebsiella pneumoniae

Plasmídeos

Tn3000

Transpóson

Acinetobacter sp.

blaNDM-1

Citrobacter freundii

Enterobacter hormaechei

Escherichia coli

IncFIIK

IncX3

Klebsiella pneumoniae

Plasmids

Tn3000

Transposon

Inflammasome regulation and activation in the intestinal epithelium

Lei, Andrea

January 2017

Microbiota colonisation of the intestinal tract makes it difficult for pattern recognition receptors (PRR) to discriminate between beneficial microbes and harmful pathogens. We aim to define the roles of cytosolic Nod-like receptors (NLR) in intestinal immunity and homeostasis. Upon activation, some NLR form inflammasomes that mediate the release of inflammatory cytokines and pyroptosis, an inflammatory form of cell death. NLR activation in the non-hematopoietic compartment was shown to be protective during acute intestinal infection. To identify the cell type responsible for this protection, we generated transgenic mice in which the key inflammasome adaptor molecule Asc is selectively ablated in intestinal epithelial cells (IEC) (Asc^ΔVC) and observed that inflammasomes are important for controlling Citrobacter rodentium clearance in these mice. To further dissect the importance of pathogen clearance by IEC inflammasome, ex vivo cultures of primary IEC organoids were established. Thus far this system has revealed profound differences in inflammasome regulation between IEC organoids and bone marrow-derived macrophages (BMDM). This research will inform our understanding of cell type-specific regulation of inflammasomes.

IL-23 Receptor Expression and Effects of Signaling on T Cell Encephalitogenicity

Smith, Alan Jay

12 September 2011

No description available.

Immunology

Interleukin-23

IL-23

EAE

Citrobacter rodentium

CFA

Multiple Sclerosis

MS

Th17

IL-17

adjuvant

A New Murine Model For Enterohemorrhagic Escherichia coli Infection Reveals That Actin Pedestal Formation Facilitates Mucosal Colonization and Lethal Disease: A Dissertation

Mallick, Emily M.

28 March 2012

Enterohemorrhagic Escherichia coli (EHEC) colonizes the intestine and produces the phage-encoded Shiga toxin (Stx) which is absorbed systemically and can lead to hemolytic uremic syndrome (HUS) characterized by hemolytic anemia, thrombocytopenia, and renal failure. EHEC, and two related pathogens, Enteropathogenic E. coli (EPEC), and the murine pathogen, Citrobacter rodentium, are attaching and effacing (AE) pathogens that intimately adhere to enterocytes and form actin “pedestals” beneath bound bacteria. The actin pedestal, because it is a unique characteristic of AE pathogens, has been the subject of intense study for over 20 years. Investigations into the mechanism of pedestal formation have revealed that to generate AE lesions, EHEC injects the type III effector, Tir, into mammalian cells, which functions as a receptor for the bacterial adhesin intimin. Tir-intimin binding then triggers a signaling cascade leading to pedestal formation. In spite of these mechanistic insights, the role of intimin and pedestal formation in EHEC disease remains unclear, in part because of the paucity of murine models for EHEC infection. We found that the pathogenic significance of EHEC Stx, Tir, and intimin, as well as the actin assembly triggered by the interaction of the latter two factors, could be productively assessed during murine infection by recombinant C. rodentium expressing EHEC virulence factors. Here we show that EHEC intimin was able to promote colonization of C. rodentium in conventional mice. Additionally, previous in vitro data indicates that intimin may have also function in a Tir-independent manner, and we revealed this function using streptomycin pre-treated mice. Lastly, using a toxigenic C. rodentium strain, we assessed the function of pedestal formation mediated by Tir-intimin interaction and found that Tir-mediated actin polymerization promoted mucosal colonization and a systemic Stx-mediated disease that shares several key features with human HUS.

Enterohemorrhagic Escherichia coli

Escherichia coli Infections

Hemolytic-Uremic Syndrome

Shiga-Toxigenic Escherichia coli

Shiga Toxin

Citrobacter rodentium

Adhesins

Bacterial

Escherichia coli Proteins

Amino Acids, Peptides, and Proteins

Animal Experimentation and Research

Bacteria

Bacterial Infections and Mycoses

Biological Factors

Enzymes and Coenzymes

Hemic and Lymphatic Diseases

Immunology and Infectious Disease

Male Urogenital Diseases