1 |
A proteomic approach to discovering novel anti-influenza mechanisms in primary human airway epithelial cellsKroeker, Andrea January 2013 (has links)
The influenza virus has a large impact on global health; however, it is difficult to formulate vaccines and influenza therapies that are effective against influenza. The influenza virus mutates rapidly, has the ability to emerge as novel strains with pandemic potential and can quickly become resistant to any given drug. Therefore, the generation of novel anti-influenza therapeutics that are effective against multiple strains would be highly beneficial. To date, the majority of anti-influenza research has focused on targeting specific components of the virus in order to interfere with its replication. However, it has been proposed that host proteins and signaling pathways may be essential components to viral replication and could also become novel anti-influenza drug targets. Therefore, this study utilized a large proteomic screen to identify host proteins that were up- and down-regulated in response to influenza infection. Collectively, these proteins clustered into five specific cell pathways and processes including interferon signaling, purine metabolism, cell death, ubiquitin-like signaling and mitochondrial oxidoreductases. Overall, this project identified potential novel anti-influenza targets in primary airway epithelial cells. / May 2015
|
2 |
Epithelial cell regulation of dentritic cell maturation in the airway mucosa : studies in an in vitro model systemRate, Angela January 2009 (has links)
[Truncated abstract] Atopic asthma pathogenesis is driven by the combined effects of airway inflammation generated during responses to viral infections and aeroallergens, and both of these pathways are regulated by dendritic cells (DC) that differentiate locally from monocytic precursors. These DC normally exhibit a sentinel phenotype characterised by active antigen sampling but attenuated presentation capability, which limits the intensity of local expression of adaptive immunity. How this tight control of airway DC functions is normally maintained and why it breaks down in some atopics leading to immunopathological changes in airway tissues, is unknown. In the airway mucosa, DC are intimately associated with airway epithelial cells (AEC), which are a source of a range of both pro- and anti-inflammatory mediators. A few studies have previously examined the effects of AEC-derived surface-expressed and soluble mediators upon the function of pre-differentiated DC, although there is a dearth of information as to the extent of AEC-conditioning of DC during their generation from incoming monocytic precursors within the airways. Therefore, this study was designed to test the hypothesis that signals from adjacent AEC contribute to regulation of local differentiation of airway mucosal DC, especially in the context of allergic airway disease. A direct co-culture model was developed containing the AEC line 16HBE 14o- as a surrogate for primary AEC, and purified peripheral blood monocytes derived from atopic patients in a GM-CSF/IL-4-enriched cytokine milieu. Cells were cultured for 5 days, at which time the phenotype and functional attributes of the monocyte-derived DC (MDDC) generated in the presence of AEC (AEC-MDDC) were compared to the control MDDC population generated without AEC contact (Ctrl- MDDC). ... In parallel, an attenuation of mRNA boosting for 7 out of 12 selected Th2-asscociated genes as well as IL-13 protein, was observed in AEC-MDDC supplemented cultures compared to ctrl-MDDC supplemented cultures. The data collected in the initial characterisation of the AEC-MDDC in Chapter 3 and further analysis of their gene expression profiles by microarray suggest a number of DC-associated factors could be involved in directing a potential bias against Th2 immunity within the T-cell recall response. These include increased expression of IL- 12 subunit mRNA and the enhanced levels of surface MHC Class II, CD80, ICAM-1 and SLAM. Further to Th1/Th2 modulation, a number of T-regulatory (Treg) genes were differentially expressed in the AEC-MDDC-re-activated CD4+ T-cells, and members of the chemokine and metallothionein families were elevated in the same population. Collectively the results of this study suggest that in the context of the atopic airway microenvironment where there is an abundance of Th2-related mediators, healthy AEC arm locally maturing DC with an arsenal of anti-microbial defences that can be rapidly employed in response to encounter with inhaled pathogens, in particular viruses. In this way, the DC are maintained in an ideal functional phenotype to efficiently mobilise both innate and Th1-polarised adaptive immune defences against infection, whilst achieving tight control of potentially-damaging Th2 immunity to aeroallergens, thus contributing to the maintenance of immunological homeostasis within the respiratory tract.
|
3 |
Airway Epithelial Cells as Targets of Glucocorticoid Therapy in Inflammatory Lung DiseasesKlaßen, Carina 10 February 2017 (has links)
No description available.
|
4 |
Différenciation des cellules souches embryonnaires humaines en cellules épithéliales respiratoires. / Differentiation of human embryonic stem cells in airway epithelial cells.Navarre, Anaïs 06 December 2016 (has links)
Les cellules souches embryonnaires humaines (CSEh), par leurs caractéristiques de pluripotence et de prolifération illimitée, représentent une alternative à l’utilisation de cellules issues de patients : leur différenciation en cellules épithéliales respiratoires pourrait permettre la production illimitée d’épithélium pour le criblage de molécules thérapeutiques.L’objectif de notre travail a été de mettre au point un protocole simple et financièrement acceptable afin de différencier les CSEh en cellules épithéliales de voies aériennes et de produire un épithélium complet. Pour ce faire, nous avons suivi deux voies potentielles de différenciation des CSEh : une voie passant par la production d’endoderme définitif, feuillet embryonnaire à l’origine de l’épithélium respiratoire, et une voie passant par un progéniteur potentiel commun aux lignages respiratoire et épidermique. Différentes combinaisons de protéines matricielles, d’inducteur de différenciation, de temps d’induction et de milieux de culture ont été testées. Nos résultats montrent que la culture des CSEh sur cellules nourricières STO dans un milieu optimisé pour les cellules bronchiques, le BEGM, en présence de Bone Morphenetic Protein 4 et d’acide rétinoïque pendant 6 jours puis en BEGM seul pendant 30 jours conduit à l’obtention de plus de 76% de progéniteurs épithéliaux respiratoires exprimant des marqueurs spécifiques tels que CK13, P63, CXCR4, FOXA2, SOX17, NKX2.1, SOX2 et SOX9. Le passage par la production de cellules de l’endoderme définitif n’a pas permis d’améliorer l’efficacité de ce protocole. L’isolement de ces progéniteurs et la reconstitution d’un épithélium complet restent à mettre au point. / Human embryonic stem cells (hESCs), for to their characteristics of pluripotency and unlimited proliferation, represent an alternative to the use of primary cells from patients: their commitment and differentiation into airway epithelial cells could help to overcome the lack of patient’s cells and could allow the unlimited production of epithelium for the screening of therapeutic molecules.The objective of our work was to develop a simple and financially acceptable protocol to differentiate hESCs into airway epithelial cells and to produce a complete epithelium. To do this, we followed two potential routes of hESC differentiation: a route through the production of definitive endoderm, the germ layer at the origin of the respiratory epithelium, and a route through a common potential progenitor to the respiratory and epidermal lineages. Various combinations of matrix proteins, differentiation inducers, induction time and culture media were tested.Our results show that hESC culture on STO feeder cells in an optimized medium for human bronchial epithelial cells, the BEGM medium, in the presence of Bone Morphenetic Protein 4 and retinoic acid for 6 days then in BEGM medium alone for 30 supplementary days led to the differentiation of more than 76% of respiratory epithelial progenitors expressing specific markers such as CK13, P63, CXCR4, FOXA2, SOX17, NKX2.1, SOX2 and SOX9. The application of these culture conditions to definitive endoderm cells, previously obtained from hESC, failed to improve the effectiveness of this protocol. The isolation of these progenitors and the reconstruction of a complete airway epithelium remain to be developed.
|
5 |
Atividade pró-coagulante da toxina ExoU de Pseudomonas aeruginosa: efeito sobre a expressão do fator tissular em células epiteliais respiratórias / Procoagulant activity of Pseudomonas aeruginosa toxin ExoU: effect on the expression of tissue factor by airway epithelial cellsLuís Filipe Pereira Feliciano 16 July 2008 (has links)
Para avaliar a capacidade da toxina ExoU de P. aeruginosa de induzir a expressão do fator tissular (FT) por células epiteliais respiratórias da linhagem BEAS-2B, células infectadas pela cepa PA103, produtora da toxina, foram comparadas com outras infectadas por cepa mutante obtida por deleção do gene exoU e com células controles não infectadas quanto a i) expressão do mRNA do FT, por RT-PCR; ii) expressão da proteína FT em lisados celulares, por ensaio imunoenzimático (ELISA), e na superfície celular, por citometria de fluxo; iii) atividade pró-coagulante das células, pela determinação da capacidade de indução de coagulação de plasma humano normal e do lisado celular, através de ensaio colorimétrico; iv) presença de FT solúvel no sobrenadante das culturas, por ELISA; v) liberação de micropartículas expressando FT e fosfatidilserina (FS), por citometria de fluxo. Nossos resultados mostraram que ExoU foi responsável pelo aumento da expressão do mRNA e da concentração da glicoproteína FT tanto nos lisados quanto na superfície celular. Esse aumento foi revertido quando as bactérias foram tratadas com uma droga inibidora de PLA2 (MAFP), comprovando-se a dependência da atividade fosfolipásica A2 de ExoU para a modulação da expressão do FT. Células infectadas pela cepa PA103 induziram uma diminuição no tempo de coagulação do plasma humano normal e o aumento da hidrólise do substrato sintético utilizado no teste colorimétrico em comparação com as células infectadas com a cepa mutante, mostrando que o FT expresso era funcionalmente ativo. Foi também detectado um aumento na concentração de FT solúvel presente nos sobrenadantes de culturas infectadas por PA103 e no número de micropartículas expressando, simultaneamente, FT e FS em relação à cultura infectada pela cepa PA103∆exoU. Os resultados obtidos nos testes in vitro foram validados pela demonstração de que a concentração de FT no parênquima pulmonar de camundongos infectados, por via intratraqueal, com a cepa selvagem foi significativamente superior à detectada nos animais infectados com a cepa mutante. / To evaluate the capacity of the P. aeruginosa toxin ExoU to induce the expression of tissue factor (TF) by epithelial respiratory cells from the BEAS-2B cell line, cells infected with the ExoU-producing PA103 bacterial strain were compared with cells infected with a mutant obtained by deletion of the exoU gene and with control non-infected cells in their i) expression of the TF mRNA, by RT-PCR; ii) expression of the protein TF in cell lisates and surfaces, by enzyme immunoassay (ELISA) and flow cytometry, respectively; iii) procoagulant activity by determining the ability of intact cells to induce the coagulation of normal human plasma and the ability of cell lysates to cleave the synthetic substrate of a chromogenic assay; iv) presence of soluble TF in cell culture supernatants, by ELISA and v) release of microparticles simultaneously expressing TF and phosphatidylserine, by flow cytometry. Cells infected with the wild type bacteria exhibited increased expression of TF mRNA 1 hour after infection and a positive modulation of TF expression in both cell lysates and cell surfaces. The enhancement of TF expression was inhibited when cells were infected with bacteria previously treated with a PLA2 inhibitor (MAFP), confirming that the ability of ExoU to modulate TF expression depended on its phospholipase A2 activity. Newly expressed TF was shown to be functionally active, by both the decrease in the clotting time of human plasma and the enhancement of the hydrolysis of the chromogenic assay substrate. Cells infected with the ExoU-producing bacteria exhibited also higher concentrations of soluble TF and of TF and PS bearing microparticles in the cell culture supernatants. These in vitro results were validated by our finding of increase TF concentrations in the lung parenchyma of mice infected intratracheally with the ExoU producing-bacteria at 24 h post-infection.
|
6 |
Atividade pró-coagulante da toxina ExoU de Pseudomonas aeruginosa: efeito sobre a expressão do fator tissular em células epiteliais respiratórias / Procoagulant activity of Pseudomonas aeruginosa toxin ExoU: effect on the expression of tissue factor by airway epithelial cellsLuís Filipe Pereira Feliciano 16 July 2008 (has links)
Para avaliar a capacidade da toxina ExoU de P. aeruginosa de induzir a expressão do fator tissular (FT) por células epiteliais respiratórias da linhagem BEAS-2B, células infectadas pela cepa PA103, produtora da toxina, foram comparadas com outras infectadas por cepa mutante obtida por deleção do gene exoU e com células controles não infectadas quanto a i) expressão do mRNA do FT, por RT-PCR; ii) expressão da proteína FT em lisados celulares, por ensaio imunoenzimático (ELISA), e na superfície celular, por citometria de fluxo; iii) atividade pró-coagulante das células, pela determinação da capacidade de indução de coagulação de plasma humano normal e do lisado celular, através de ensaio colorimétrico; iv) presença de FT solúvel no sobrenadante das culturas, por ELISA; v) liberação de micropartículas expressando FT e fosfatidilserina (FS), por citometria de fluxo. Nossos resultados mostraram que ExoU foi responsável pelo aumento da expressão do mRNA e da concentração da glicoproteína FT tanto nos lisados quanto na superfície celular. Esse aumento foi revertido quando as bactérias foram tratadas com uma droga inibidora de PLA2 (MAFP), comprovando-se a dependência da atividade fosfolipásica A2 de ExoU para a modulação da expressão do FT. Células infectadas pela cepa PA103 induziram uma diminuição no tempo de coagulação do plasma humano normal e o aumento da hidrólise do substrato sintético utilizado no teste colorimétrico em comparação com as células infectadas com a cepa mutante, mostrando que o FT expresso era funcionalmente ativo. Foi também detectado um aumento na concentração de FT solúvel presente nos sobrenadantes de culturas infectadas por PA103 e no número de micropartículas expressando, simultaneamente, FT e FS em relação à cultura infectada pela cepa PA103∆exoU. Os resultados obtidos nos testes in vitro foram validados pela demonstração de que a concentração de FT no parênquima pulmonar de camundongos infectados, por via intratraqueal, com a cepa selvagem foi significativamente superior à detectada nos animais infectados com a cepa mutante. / To evaluate the capacity of the P. aeruginosa toxin ExoU to induce the expression of tissue factor (TF) by epithelial respiratory cells from the BEAS-2B cell line, cells infected with the ExoU-producing PA103 bacterial strain were compared with cells infected with a mutant obtained by deletion of the exoU gene and with control non-infected cells in their i) expression of the TF mRNA, by RT-PCR; ii) expression of the protein TF in cell lisates and surfaces, by enzyme immunoassay (ELISA) and flow cytometry, respectively; iii) procoagulant activity by determining the ability of intact cells to induce the coagulation of normal human plasma and the ability of cell lysates to cleave the synthetic substrate of a chromogenic assay; iv) presence of soluble TF in cell culture supernatants, by ELISA and v) release of microparticles simultaneously expressing TF and phosphatidylserine, by flow cytometry. Cells infected with the wild type bacteria exhibited increased expression of TF mRNA 1 hour after infection and a positive modulation of TF expression in both cell lysates and cell surfaces. The enhancement of TF expression was inhibited when cells were infected with bacteria previously treated with a PLA2 inhibitor (MAFP), confirming that the ability of ExoU to modulate TF expression depended on its phospholipase A2 activity. Newly expressed TF was shown to be functionally active, by both the decrease in the clotting time of human plasma and the enhancement of the hydrolysis of the chromogenic assay substrate. Cells infected with the ExoU-producing bacteria exhibited also higher concentrations of soluble TF and of TF and PS bearing microparticles in the cell culture supernatants. These in vitro results were validated by our finding of increase TF concentrations in the lung parenchyma of mice infected intratracheally with the ExoU producing-bacteria at 24 h post-infection.
|
7 |
Directed induction of functional multi-ciliated cells in proximal airway epithelial spheroids from human pluripotent stem cells / ヒト多能性幹細胞から近位気道上皮スフェロイドを介して機能的な繊毛上皮細胞を分化させるKonishi, Satoshi 23 March 2016 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第19592号 / 医博第4099号 / 新制||医||1014(附属図書館) / 32628 / 京都大学大学院医学研究科医学専攻 / (主査)教授 斎藤 通紀, 教授 伊達 洋至, 教授 上杉 志成 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM
|
8 |
Immune resistance mechanisms of the Bordetella pertussis polysaccharide BpsFullen, Audra R. January 2022 (has links)
No description available.
|
9 |
Krüppel-Like Factor 5 Regulates Expression of Key Genes in Human Airway Epithelial Cells, Including <i>CFTR</i>Paranjapye, Alekh 26 August 2022 (has links)
No description available.
|
10 |
STAT3 and SMAD Signaling in Mouse Models of Oncostatin M-Induced Lung Extracellular Matrix RemodelingWong, Steven 28 August 2014 (has links)
<p>IPF is a respiratory condition of unknown etiology that has poor survival prognosis. The stiffening of the lung associated with this condition is attributed to the irreversible turnover of healthy lung tissue into scar tissue, which affects gas exchange and can eventually lead to organ failure. Numerous studies have implicated the pro-fibrogenic growth factor TGF-β, through activation of the SMAD2/3 pathway, as a central mediator in the pathology of this condition. However, other cytokines, including members of the IL-6/gp130 family such as OSM, and other signaling pathways may be implicated in ECM accumulation in certain conditions. In particular, STAT3 activation and an impairment of the BMP-SMAD1 signaling axis is thought to contribute to lung ECM accumulation. Based on the finding that transient pulmonary overexpression of OSM induces lung ECM accumulation in C57Bl/6 mice, it was hypothesized that OSM-induced ECM remodeling would be associated with STAT3 activation and suppression of the BMP-SMAD1-signaling axis.</p> <p>Findings in this thesis revealed that transient pulmonary overexpression of OSM induces ECM remodeling in both BALB/c and C57Bl/6 mice after seven days, despite a dichotomous response in other experimental models of ECM remodeling. However, parenchyma, but not airway, pathology resolved after 28 days in AdOSM-treated BALB/c mice. Furthermore, OSM-induced ECM remodeling occurred independently of IL-6-associated inflammation as well as TGF-β/SMAD3 signaling. MLF cultures treated with OSM did not directly regulate gene expression of ECM-related genes, suggesting that other cells may be responsible for OSM-induced ECM accumulation <em>in vivo</em>. OSM overexpression <em>in vivo </em>was associated with STAT3 activation and SMAD1 suppression, and an assessment of STAT3 and SMAD signaling <em>in vitro</em> showed that OSM activated the STAT3 pathway in MLF cultures, mouse type two pneumocytes, and human airway cells, while OSM suppressed the SMAD1 pathway in mouse type two pneumocytes, and human airway cells. Collectively, this thesis shows that OSM induces novel pathways in models of lung ECM remodeling, and this may have implications for IPF pathogenesis.</p> / Master of Science (MSc)
|
Page generated in 0.1067 seconds