Lymphocyte mediated control of the respiratory epithelial barrier and phenotype

Conlin, Victoria Susan

January 2002

No description available.

612

Respiratory epithelial cells

CXC chemokine responses of respiratory epithelial cells to Streptococcus pneumoniae.

Graham, Rikki Marie Ann

January 2005

Title page, table of contents and abstract only. The complete thesis in print form is available from the University of Adelaide Library. / Streptococcus pneumoniae (the pneumococcus) remains a major cause of morbidity and mortality worldwide, particularly in young children and the elderly. It is responsible for a spectrum of diseases ranging from otitis media, to potentially fatal conditions such as pneumonia and meningitis, and is estimated to cost health services billions of dollars each year. The interaction of S. pneumoniae with the host generally begins in the nasopharynx, and invasive disease is almost invariably preceded by nasopharyngeal colonisation. In some circumstances, S. pneumoniae may translocate from the nasopharynx to the lungs where pneumonia can develop, and inflammation is believed to play a role in this process. The presence of pneumococci in the lungs also triggers an inflammatory response, which is important for clearance of the bacteria. However, a prolonged inflammatory response leads to tissue damage, and is linked with a poor prognosis of disease. It has been shown that respiratory epithelial cells are able to play an active part in the response to respiratory pathogens by releasing chemokines that are responsible for neutrophil recruitment, and it has recently been shown that infection of type II pneumocytes with S. pneumoniae leads to the release of interleukin (IL)-8. In order to determine the role of specific pneumococcal factors in eliciting a CXC chemokine response from type II pneumocytes (A549) and nasopharyngeal cells (Detroit-562), monolayers of these cells were infected with wild type (WT) S. pneumoniae 039, or mutants deficient in choline binding protein A (CbpA), pneumococcal surface protein A (PspA), or pneumolysin (Ply), and the CXC chemokine mRNA response was measured by real-time RT-PCR. Release of IL-8 was also measured by ELISA. In response to WT D39, both A549 and Detroit-562 cells showed a significant increase in CXC chemokine mRNA, and IL-8 protein. This response was increased 2-fold when a CbpA-negative (ACbpA) mutant was used to infect cells, suggesting that CbpA may have an inhibitory effect on the CXC chemokine response of these cells. Further investigatiDn demonstrated that this activity is dependent on the N-terminal region of CbpA and that all three N-terminal domains are required for this effect, as deletion of any one of these domains had the same effect on the CXC chemokine response as removing CbpA altogether. Infection with a PspA-negative mutant (APspA) led to a 2-fold decrease in the CXC chemokine response of A549 cells, compared to infection with WT D39 at 2 h, but no difference was seen in the response of Detroit-562 cells to this mutant compared to WT D39. Thus, PspA appears to have the ability to stimulate an early CXC chemokine release from A549 cells. Deletion of the first of 2 regions of the N-terminal a-helical domain of PspA reduced the ability of S pneumoniae to elicit a chemokine response to the same degree as removing PspA altogether, indicating that it is this region that is responsible for the chemokine inducing ability of PspA. Ply appeared to have no effect on the CXC chemokine response of A549 cells with no obvious difference seen in the response of these cells to APly compared to WT D39. However, infection of Detroit-562 cells with APly led to a 2-fold decrease in IL-8 mRNA and protein release compared to WT D39. Using D39 strains producing mutant forms of Ply with reduced cytotoxicity and/or complement activating abilities, the role of the cytotoxic activity of Ply was demonstrated to be important in generation of a chemokine response from both cell lines. Infection of A549 or Detroit-562 cells with mutants producing Ply with only 0.02% or 0.1% haemolytic activity led to a 2-fold decrease in IL-8 release compared to that elicited by WT D39. The complement activating ability of Ply also appeared to be important in the generation of a CXC chemokine response from A549 cells. Cells infected with a mutant that produced Ply with no complement activating ability released significantly less IL-8 than cells infected with WT D39. This activity of Ply did not appear to have an effect on the CXC chemokine release of Detroit-562 cells. Thus all three virulence factors investigated had some role in the ability of S. pneumoniae to generate a CXC chemokine response from respiratory epithehal cells, although their roles and the cell lines that were affected differed. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1225410 / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Sciences, 2005

Influência de pré-tratamentos de células epiteliais com penicilina e eritromicina na aderência e na viabilidade intracelular de Corynebacterium diphtheriae / Influence of epithelial cells pre-treatment with penicilin and erythromycin in adherence and intracellular viability of Corynebacterium diphtheriae

Renata Stavracakis Peixoto

16 January 2012

Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro / A difteria é uma síndrome toxêmica causada pelo Corynebacterium diphtheriae. Embora programas de imunização mantenham a doença sob controle em países desenvolvidos, a difteria ainda permanece endêmica em diversas partes do mundo, especialmente em indivíduos parcialmente imunizados para toxina diftérica. Junto a isso, nos últimos 20 anos, tem-se observado a ocorrência crescente de quadros de infecções sistêmicas causados por cepas atoxinogênicas. A penicilina e eritromicina são as principais drogas de escolha no tratamento destas infecções, entretanto, a escassez de trabalhos reavaliando a terapia de escolha e a influência dos antibióticos no processo de interação bacteriana com células epiteliais humanas são escassos, logo compreendem aspectos que justificam o presente estudo. O objetivo principal deste projeto consiste na análise da influência do pré-tratamento de células epiteliais Hep-2 com os antimicrobianos penicilina e eritromicina na colonização e viabilidade intracelular de amostras de C. diphtheriae. As monocamadas foram submetidas ao tratamento prévio com doses séricas terapêuticas de penicilina (5g mL1) e eritromicina (1,92 g mL1) por 24 horas e os antibióticos foram removidos por lavagens com PBS antes da interação com a suspensão bacteriana (MOI de 107). Três horas após a infecção, o padrão de aderência foi investigado como também, realizada a análise das bactérias viáveis associadas e internalizadas nas monocamadas. O pré-tratamento com penicilina induziu a formação de perfil de aderência difuso (AD) pelas amostras estudadas. Microorganismos que normalmente apresentam padrão de aderência localizado (AL) passaram a expressar perfil (AD) após pré-tratamento das camadas com ambos antimicrobianos. A expressão do tipo agregativo (AA) não foi influenciada pela presença de eritromicina. A penicilina e a eritromicina reduziram o número de bactérias viáveis associadas às células HEp-2 na maioria das oportunidades. Entretanto, a penicilina interferiu em maior magnitude nesse processo. As três amostras invasoras de C. diphtheriae (HC01, HC04 e BR5015), apresentaram maior capacidade de sobrevivência no compartimento intracelular, independente do pré-tratamento. A expressão dos perfis de aderência assim como a capacidade de sobrevivência no compartimento intracelular frente aos antimicrobianos testados mostraram-se independentes da produção de toxina e dos percentuais de associação com as células HEp-2. Foi observada uma maior eficiência da eritromicina na eliminação de bactérias viáveis internalizadas reforçando a utilização clínica da eritromicina tanto no tratamento de pacientes quanto na erradicação do estado de portador. Novos estudos serão desenvolvidos para investigar alterações na expressão de fatores de virulência por amostras de C. diphtheriae na interação com células HEp-2 pré-tratadas com antimicrobianos e a influência sobre a evolução clínica das infecções por corinebactérias / Diphtheria is a syndrome caused by Toxigenic Corynebacterium diphtheriae. Although immunization programs have kept diphtheria under control in the great majority of developed countries, the disease remains endemic in many parts of the world, especially in individuals partially immunized to diphtheria toxoid. Additionally, an increase in the number of cases of systemic infections caused by non-toxigenic strains has been observed along the last 20 years. Penicillin and erythromycin have long been the drugs of choice for the treatment of C. diphtheriae infections, though the studies reviewing the choice of treatment and the influence of antibiotics in the process of bacterial interaction with human epithelial cells are scarce, and comprise the aspects that justify the present investigation. The main objective was to analyze the influence of pre-treatment of HEp-2 epithelial cells with the penicillin and erythromycin in adherence and intracellular viability of C. diphtheriae strains. HEp-2 monolayers were pre-treated for 24 hours with the serum concentration doses of penicillin (5g mL-1) and erythromycin (1.92 mg mL-1), and antibiotics were removed by washing with PBS before infection with bacterial suspension (MOI of 107). Three hours post-infection, the adherence pattern was investigated, and both percentage of viable cell-associated bacteria and intracellular bacteria was determined. Penicillin treatment induced the bacterial strains to exhibit diffuse adherence patterns (DA). Microorganisms that usually express localized adherence patterns (LA) began to express DA pattern after pre-treatment of monolayers with both antibiotics. Erythromycin did not influence the aggregative adherence pattern (AA). Penicillin and erythromycin reduced the number of viable HEp-2 cell-associated bacteria for the most of the strains. However, penicillin interfered in this process in a greater magnitude. The C. diphtheriae invasive strains (HC01, HC04 and BR5015) showed higher ability to survive within the intracellular compartment, regardless of pre-treatment. The expression of adherence patterns as well as the ability to survive in the intracellular environment of pre-treated cells, proved to be independent of toxin production and the usual percentage of association with HEp-2 cells. A higher efficiency in the reduction of intracellular viability with the use of erythromycin was observed for the majority of strains, and reinforces the clinical use of erythromycin in the treatment of patients alongside the eradication of the carrier state. Further studies will be necessary to investigate the changes in the expression of virulence factors in C. diphtheriae during the interaction with HEp-2 cells pre-treated with antimicrobials and the influence on the clinical evolution of corynebacterial infections

corynebacterium diphtheriae

antimicrobianos

difteria

penicilina

corynebacterium diphtheria

antimicrobial adherence

intracellular viability

human respiratory epithelial cells

MICROBIOLOGIA MEDICA

Influência de pré-tratamentos de células epiteliais com penicilina e eritromicina na aderência e na viabilidade intracelular de Corynebacterium diphtheriae / Influence of epithelial cells pre-treatment with penicilin and erythromycin in adherence and intracellular viability of Corynebacterium diphtheriae

Renata Stavracakis Peixoto

16 January 2012

Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro / A difteria é uma síndrome toxêmica causada pelo Corynebacterium diphtheriae. Embora programas de imunização mantenham a doença sob controle em países desenvolvidos, a difteria ainda permanece endêmica em diversas partes do mundo, especialmente em indivíduos parcialmente imunizados para toxina diftérica. Junto a isso, nos últimos 20 anos, tem-se observado a ocorrência crescente de quadros de infecções sistêmicas causados por cepas atoxinogênicas. A penicilina e eritromicina são as principais drogas de escolha no tratamento destas infecções, entretanto, a escassez de trabalhos reavaliando a terapia de escolha e a influência dos antibióticos no processo de interação bacteriana com células epiteliais humanas são escassos, logo compreendem aspectos que justificam o presente estudo. O objetivo principal deste projeto consiste na análise da influência do pré-tratamento de células epiteliais Hep-2 com os antimicrobianos penicilina e eritromicina na colonização e viabilidade intracelular de amostras de C. diphtheriae. As monocamadas foram submetidas ao tratamento prévio com doses séricas terapêuticas de penicilina (5g mL1) e eritromicina (1,92 g mL1) por 24 horas e os antibióticos foram removidos por lavagens com PBS antes da interação com a suspensão bacteriana (MOI de 107). Três horas após a infecção, o padrão de aderência foi investigado como também, realizada a análise das bactérias viáveis associadas e internalizadas nas monocamadas. O pré-tratamento com penicilina induziu a formação de perfil de aderência difuso (AD) pelas amostras estudadas. Microorganismos que normalmente apresentam padrão de aderência localizado (AL) passaram a expressar perfil (AD) após pré-tratamento das camadas com ambos antimicrobianos. A expressão do tipo agregativo (AA) não foi influenciada pela presença de eritromicina. A penicilina e a eritromicina reduziram o número de bactérias viáveis associadas às células HEp-2 na maioria das oportunidades. Entretanto, a penicilina interferiu em maior magnitude nesse processo. As três amostras invasoras de C. diphtheriae (HC01, HC04 e BR5015), apresentaram maior capacidade de sobrevivência no compartimento intracelular, independente do pré-tratamento. A expressão dos perfis de aderência assim como a capacidade de sobrevivência no compartimento intracelular frente aos antimicrobianos testados mostraram-se independentes da produção de toxina e dos percentuais de associação com as células HEp-2. Foi observada uma maior eficiência da eritromicina na eliminação de bactérias viáveis internalizadas reforçando a utilização clínica da eritromicina tanto no tratamento de pacientes quanto na erradicação do estado de portador. Novos estudos serão desenvolvidos para investigar alterações na expressão de fatores de virulência por amostras de C. diphtheriae na interação com células HEp-2 pré-tratadas com antimicrobianos e a influência sobre a evolução clínica das infecções por corinebactérias / Diphtheria is a syndrome caused by Toxigenic Corynebacterium diphtheriae. Although immunization programs have kept diphtheria under control in the great majority of developed countries, the disease remains endemic in many parts of the world, especially in individuals partially immunized to diphtheria toxoid. Additionally, an increase in the number of cases of systemic infections caused by non-toxigenic strains has been observed along the last 20 years. Penicillin and erythromycin have long been the drugs of choice for the treatment of C. diphtheriae infections, though the studies reviewing the choice of treatment and the influence of antibiotics in the process of bacterial interaction with human epithelial cells are scarce, and comprise the aspects that justify the present investigation. The main objective was to analyze the influence of pre-treatment of HEp-2 epithelial cells with the penicillin and erythromycin in adherence and intracellular viability of C. diphtheriae strains. HEp-2 monolayers were pre-treated for 24 hours with the serum concentration doses of penicillin (5g mL-1) and erythromycin (1.92 mg mL-1), and antibiotics were removed by washing with PBS before infection with bacterial suspension (MOI of 107). Three hours post-infection, the adherence pattern was investigated, and both percentage of viable cell-associated bacteria and intracellular bacteria was determined. Penicillin treatment induced the bacterial strains to exhibit diffuse adherence patterns (DA). Microorganisms that usually express localized adherence patterns (LA) began to express DA pattern after pre-treatment of monolayers with both antibiotics. Erythromycin did not influence the aggregative adherence pattern (AA). Penicillin and erythromycin reduced the number of viable HEp-2 cell-associated bacteria for the most of the strains. However, penicillin interfered in this process in a greater magnitude. The C. diphtheriae invasive strains (HC01, HC04 and BR5015) showed higher ability to survive within the intracellular compartment, regardless of pre-treatment. The expression of adherence patterns as well as the ability to survive in the intracellular environment of pre-treated cells, proved to be independent of toxin production and the usual percentage of association with HEp-2 cells. A higher efficiency in the reduction of intracellular viability with the use of erythromycin was observed for the majority of strains, and reinforces the clinical use of erythromycin in the treatment of patients alongside the eradication of the carrier state. Further studies will be necessary to investigate the changes in the expression of virulence factors in C. diphtheriae during the interaction with HEp-2 cells pre-treated with antimicrobials and the influence on the clinical evolution of corynebacterial infections

corynebacterium diphtheriae

antimicrobianos

difteria

penicilina

corynebacterium diphtheria

antimicrobial adherence

intracellular viability

human respiratory epithelial cells

MICROBIOLOGIA MEDICA

Entwicklung eines bioartifiziellen Trachealersatzes

Endres, Michaela

18 October 2005

Verschiedene Ursachen erfordern rekonstruktive Maßnahmen an der Trachea zur Erhaltung eines suffizienten Luftweges. Häufig treten im Rahmen dieser Eingriffe Infektionen und Schädigungen auf, die die Bildung von Granulationsgewebe nach sich ziehen und zu Stenosen führen können. Der Einsatz von epithelialisierten autogenen oder auch allogenen Transplantaten, die mit der Methode des Tissue Engineering hergestellt werden, bietet einen neuen Lösungsansatz, um Stenosen zu vermeiden. Diese Arbeit beschäftigt sich mit der Isolierung, Kultivierung und Charakterisierung von humanem respiratorischen Epithelzellen (hREC), sowie deren Einsatz in Co-Kulturen mit humanen Chondrozyten als einen ersten Schritt zur Transplantatherstellung. Die hREC wurden sowohl in nativem Gewebe als auch in Monolayerkultur und in verschiedenen Differenzierungkulturen histologisch und immunhistochemisch analysiert. Zusätzlich wurde die Ziliogenense mit der Elektronenmikroskop untersucht. Eine weitere Charakterisierung erfolgte durch die Genexpressionsanalyse einiger Cytokeratine auf RNA-Ebene mit der semiquantitativen real-time RT-PCR. Mittels Durchflusszytometrie konnten Basalzellen, die auch als Vorläuferzellen des humanen respiratorischen Epithels gelten, mit den Antikörpern CD49f und CD104 detektiert und analysiert und unter Verwendung der fluoreszenzaktivierten Zellsortierung (FACS) separiert werden. Es zeigte sich, dass die hREC in den Proliferationskulturen dedifferenzierten und durch spezielle Basalzellmarker angefärbt wurden. Die Differenzierungskulturen und ALI-Kulturen gaben erste Hinweise auf die Differenzierung der Zellen. In den Co-Kulturen konnte unter dem Einfluß eines Air-Liquid-Inteface ebenfalls eine Re-differenzierung der Zellen beobachtet werden. Die Ergebnisse zeigen, dass es möglich ist, eine Epithelialisierung von kollagenbeschichteten Biomaterialien oder auch autologem Knorpel zu erreichen, um diese Konstrukte für das Trachea Tissue Engineering einzusetzen. / The replacement of extensive tracheal defects resulting from intensive care medicine, trauma, or large resections is still challenged by the re-epithelialization of an autologous or alloplastic trachea replacement. Therefore, this thesis was performed to investigate the potential of culture expanded human respiratory epithelial cells (hREC) to regenerate a functional epithelium for trachea tissue engineering.hREC from nasal turbinates were freshly isolated, expanded and subsequently cultured in high-density multilayers to allow epithelial differentiation. Composition of epithelial cells in native respiratory epithelial tissue and culture expanded hREC were analyzed by histological staining and by immunohistochemical staining with the specific antibodies. Differentiation of culture expanded hREC was further characterized by gene expression analysis of a cytokeratin pattern using semi-quantitative real-time RT-PCR technique. Furthermore, basal cells known as progenitors of the respiratory epithelium were seperated by Fluorescense Activated Cell Sorting with the basal cell specific antibodies CD49f and CD104. Co-cultures of hREC and human chondrocytes (hCHO) or human cartilage respectively were compared to Air-Liquid-Interface cultures containing hREC and hCHO.Histological and immunohistochemical staining and Scanning Electron Microscopy pictures of hREC in differentiation cultures demonstrated basal cells covering the collagenous matrix. These cells formed a cellular multilayer, which is composed of a basal layer of undifferentiated basal cells and an upper layer of cells differentiating along the squamous metaplasia and ciliated cell lineage. Lineage development of cultured hREC was further documented by the induction of specific cytokeratins. Our results suggest that culture expanded hREC have the potential to colonize collagen coated biomaterials as well as autologous cartilage grafts and to regenerate epithelial cell types for trachea tissue engineering.

Gewebezüchtung

Luftröhre

Zellkultur

Trachealersatz

Respiratorische Epithelzellen

Co-Kulturen

Cell Culture

Tissue Engineering

Tracheal replacement

Respiratory Epithelial Cells

Trachea

Co-Cultures

610 Medizin

33 Medizin

YI 6530

YN 5104

ddc:610

Etude de la réponse immunitaire innée induite par les virus de la grippe aviaire dans les cellules épithéliales pulmonaires et les cellules endothéliales de poulets / Study of innate immune response induced by avian influenza viruses in chicken lung epithelial cells and chicken endothelial cells

Lion, Adrien

04 July 2017

Les virus influenza aviaires faiblement pathogènes (IAFP) ciblent principalement les épithéliums des voies respiratoires et intestinales chez les poulets (Gallus gallus) infectés. Cependant, les virus influenza aviaires hautement pathogènes (IAHP) mènent à une maladie systémique fatale avec une localisation particulière aux endothéliums. L’objectif de cette thèse a été d’explorer les relations entre la réplication des virus influenza aviaires (IA) et la réponse antivirale de l’hôte dans deux modèles cellulaires originaux obtenus chez le poulet : des cellules épithéliales pulmonaires (CLEC213) et des cellules endothéliales d’aortes (chAEC). Les résultats clés sont les suivants : (i) la réplication productive des virus IA dans les chAEC dépend du clivage de l’hémagglutinine et de l’échappement viral à la réponse immunitaire innée ; (ii) les CLEC213 sont très permissives aux virus IA et présentent une faible réponse antivirale médiée par la signalisation TLR3 et MDA5 ; (iii) les fonctions régulatrices de SOCS1 et SOCS3, sur le signal des interférons et des cytokines, sont conservées chez le poulet. Nous proposons que certains virus IA peuvent exploiter les fonctions pro-virales de SOCS1 et SOCS3 à leur avantage de manière spécifique au type cellulaire. / Low pathogenic avian influenza (LPAI) viruses essentially target the epithelia of the respiratory and intestinal tract in the infected chicken host (Gallus gallus). However, highly pathogenic avian influenza (HPAI) viruses induce a peracute fatal systemic disease and exhibit a striking endothelial cell tropism. The objective of the present thesis was to explore the interdependencies of AI virus replication and the antiviral host response in two novel avian cell culture models: chicken lung epithelial cells (CLEC213) and chicken aortic endothelial cells (chAEC). The salient findings from this study are that (i) productive AI virus replication in chAEC is dependent on hemagglutinin cleavability and appears to be related to innate immune escape; (ii) CLEC213 are highly permissive to AI virus infection, due to a cell type-specific diminished TLR3- and/or MDA5-mediated antiviral signaling response; (iii) the interferon and cytokine regulatory functions of SOCS1 and SOCS3 are conserved in the chicken. Based on our data, we propose a model that predicts that certain AI viruses may exploit the proviral functions of SOCS1 and SOCS3 in a cell type-specific manner.

Virus influenza aviaires

Poulet

Gallus gallus

Cellules épithéliales pulmonaires

Cellules endothéliales

Réponse immunitaire innée antivirale

Interféron

TLR3

MDA5

SOCS

Avian influenza viruses

Chicken

Gallus gallus

Respiratory epithelial cells

Endothelial cells

Antiviral innate immune response

Interferon

TLR3

MDA5

SOCS