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BACKGROUND: The collagen gel contraction assay measures gel size to assess the contraction of cells embedded in collagen gel matrices. Using the assay with lung fibroblasts is useful in studying the lung tissue remodeling process in wound healing and disease development. However,the involvement of bronchial epithelial cells in this process should also be investigated. METHODS: We applied a layer of mucociliary differentiated bronchial epithelial cells onto collagen gel matrices with lung fibroblasts. This co-culture model enables direct contact between epithelial and mesenchymal cells. We stimulated the culture with transforming growth factor (TGF) beta1 as an inducer of tissue remodeling for 21 days,and measured gel size,histological changes,and expression of factors related to extracellular matrix homeostasis. RESULTS: TGF-beta1 exerted a concentration-dependent effect on collagen gel contraction and on contractile myofibroblasts in the mesenchymal collagen layer. TGF-beta1 also induced expression of the mesenchymal marker vimentin in the basal layer of the epithelium,suggesting the induction of epithelial-mesenchymal transition. In addition,the expression of various genes encoding extracellular matrix proteins was upregulated. Fibrotic tenascin-C accumulated in the sub-epithelial region of the co-culture model. CONCLUSION: Our findings indicate that TGF-beta1 can affect both epithelial and mesenchymal cells,and induce gel contraction and structural changes. Our novel in vitro co-culture model will be a useful tool for investigating the roles of epithelial cells,fibroblasts,and their interactions in the airway remodeling process. View Publication

Severe asthma represents a major unmet clinical need; understanding the pathophysiology is essential for the development of new therapies. Using microarray analysis,we previously found three immunological clusters in asthma: Th2-high,Th17-high,and Th2/17-low. Although new therapies are emerging for Th2-high disease,identifying molecular pathways in Th2-low disease remains an important goal. Further interrogation of our previously described microarray dataset revealed upregulation of gene expression for carcinoembryonic Ag cell adhesion molecule (CEACAM) family members in the bronchi of patients with severe asthma. Our aim was therefore to explore the distribution and cellular localization of CEACAM6 using immunohistochemistry on bronchial biopsy tissue obtained from patients with mild-to-severe asthma and healthy control subjects. Human bronchial epithelial cells were used to investigate cytokine and corticosteroid in vitro regulation of CEACAM6 gene expression. CEACAM6 protein expression in bronchial biopsies was increased in airway epithelial cells and lamina propria inflammatory cells in severe asthma compared with healthy control subjects. CEACAM6 in the lamina propria was localized to neutrophils predominantly. Neutrophil density in the bronchial mucosa was similar across health and the spectrum of asthma severity,but the percentage of neutrophils expressing CEACAM6 was significantly increased in severe asthma,suggesting the presence of an altered neutrophil phenotype. CEACAM6 gene expression in cultured epithelial cells was upregulated by wounding and neutrophil elastase. In summary,CEACAM6 expression is increased in severe asthma and primarily associated with airway epithelial cells and tissue neutrophils. CEACAM6 may contribute to the pathology of treatment-resistant asthma via neutrophil and airway epithelial cell-dependent pathways. View Publication

The respiratory tract with its ease of access,vast surface area and dense network of antigen-presenting cells (APCs) represents an ideal target for immune-modulation. Bio-mimetic nanocarriers such as virosomes may provide immunomodulatory properties to treat diseases such as allergic asthma. In our study we employed a triple co-culture model of epithelial cells,macrophages and dendritic cells to simulate the human airway barrier. The epithelial cell line 16HBE was grown on inserts and supplemented with human blood monocyte-derived macrophages (MDMs) and dendritic cells (MDDCs) for exposure to influenza virosomes and liposomes. Additionally,primary human nasal epithelial cells (PHNEC) and EpCAM+ epithelial progenitor cell mono-cultures were utilized to simulate epithelium from large and smaller airways,respectively. To assess particle uptake and phenotype change,cell cultures were analyzed by flow cytometry and pro-inflammatory cytokine concentrations were measured by ELISA. All cell types internalized virosomes more efficiently than liposomes in both mono- and co-cultures. APCs like MDMs and MDDCs showed the highest uptake capacity. Virosome and liposome treatment caused a moderate degree of activation in MDDCs from mono-cultures and induced an increased cytokine production in co-cultures. In epithelial cells,virosome uptake was increased compared to liposomes in both mono- and co-cultures with EpCAM+ epithelial progenitor cells showing highest uptake capacity. In conclusion,all cell types successfully internalized both nanocarriers with virosomes being taken up by a higher proportion of cells and at a higher rate inducing limited activation of MDDCs. Thus virosomes may represent ideal carrier antigen systems to modulate mucosal immune responses in the respiratory tract without causing excessive inflammatory changes. View Publication

INTRODUCTION: Lung cancer contains a small population of cancer stem cells that contribute to its initiation and progression. We investigated the biological function and clinical significance of aldehyde dehydrogenase 1A1 (ALDH1A1) in non-small-cell lung carcinoma (NSCLC). METHODS: ALDH1A1 assay or small interfering RNA transfection was employed to isolate ALDH1A1+ cells or knock down ALDH1A1 expression in H2087 cells,respectively. Biological functions of ALDH1A1+ and ALDH1A1 silenced cells were investigated using in vitro and in vivo methods. ALDH1A1 expression was analyzed using immunohistochemistry on tissue microarrays with 179 lung cancer tissues and 26 normal lung tissues. RESULTS: The abilities of clone formation,proliferation,cell growth,and migration were increased in ALDH1A1+ and ALDH1A1 silenced cells. ALDH1A1+ lung cancer cells initiated tumors that resembled the histopathologic characteristics and heterogeneity of the parental lung cancer cells in mice. The silencing of ALDH1A1 expression in H2087 lung cancer cells inhibited cell proliferation and migration significantly. ALDH1A1 was expressed in 42% of normal lung tissues (11 of 26),with strong expression in the basal cells and globular cells of the normal bronchus and weak expression in the alveolar epithelial cells. Compared with normal lung tissues,45% of NSCLC samples (81 of 179) were read as positive for ALDH1A1. Positive ALDH1A1 expression was correlated with patients' smoking status (p = 0.022),lymph-node metastasis (p = 0.006),clinical stage (p = 0.004),and a decreased overall survival time (p textless 0.001). Positive ALDH1A1 expression in lung cancer tissues was an independent prognostic factor for NSCLC (odds ratio = 5.232,p textless 0.001). CONCLUSION: Elucidating the biological functions of ALDH1A1 could be helpful in studying lung tumorigenesis and for developing new therapeutic approaches. View Publication

Respiratory syncytial virus (RSV) causes severe respiratory disease in young children. Antibodies specific for the RSV prefusion F protein have guided RSV vaccine research,and in human serum,these antibodies contribute to<90% of the neutralization response; however,detailed insight into the composition of the human B cell repertoire against RSV is still largely unknown. In order to study the B cell repertoire of three healthy donors for specificity against RSV,CD27+memory B cells were isolated and immortalized using BCL6 and Bcl-xL. Of the circulating memory B cells,0.35% recognized RSV-A2-infected cells,of which 59% were IgA-expressing cells and 41% were IgG-expressing cells. When we generated monoclonal B cells selected for high binding to RSV-infected cells,44.5% of IgG-expressing B cells and 56% of IgA-expressing B cells reacted to the F protein,while,unexpectedly,41.5% of IgG-expressing B cells and 44% of IgA expressing B cells reacted to the G protein. Analysis of the G-specific antibodies revealed that 4 different domains on the G protein were recognized. These epitopes predicted cross-reactivity between RSV strain A (RSV-A) and RSV-B and matched the potency of antibodies to neutralize RSV in HEp-2 cells and in primary epithelial cell cultures. G-specific antibodies were also able to induce antibody-dependent cellular cytotoxicity and antibody-dependent cellular phagocytosis of RSV-A2-infected cells. However,these processes did not seem to depend on a specific epitope. In conclusion,healthy adults harbor a diverse repertoire of RSV glycoprotein-specific antibodies with a broad range of effector functions that likely play an important role in antiviral immunity.IMPORTANCEHuman RSV remains the most common cause of severe lower respiratory tract disease in premature babies,young infants,the elderly,and immunocompromised patients and plays an important role in asthma exacerbations. In developing countries,RSV lower respiratory tract disease has a high mortality. Without an effective vaccine,only passive immunization with palivizumab is approved for prophylactic treatment. However,highly potent RSV-specific monoclonal antibodies could potentially serve as a therapeutic treatment and contribute to disease control and mortality reduction. In addition,these antibodies could guide further vaccine development. In this study,we isolated and characterized several novel antibodies directed at the RSV G protein. This information can add to our understanding and treatment of RSV disease. View Publication

BACKGROUND In vitro systems of primary cystic fibrosis (CF) airway epithelial cells are an important tool to study molecular and functional features of the native respiratory epithelium. However,undifferentiated CF airway cell cultures grown under submerged conditions do not appropriately represent the physiological situation. A more advanced CF cell culture system based on airway epithelial cells grown at the air-liquid interface (ALI) recapitulates most of the in vivo-like properties but requires the use of invasive sampling methods. In this study,we describe a detailed characterization of fully differentiated primary CF airway epithelial cells obtained by non-invasive nasal brushing of pediatric patients. METHODS Differentiated cell cultures were evaluated with immunolabelling of markers for ciliated,mucus-secreting and basal cells,and tight junction and CFTR proteins. Epithelial morphology and ultrastructure was examined by histology and transmission electron microscopy. Ciliary beat frequency was investigated by a video-microscopy approach and trans-epithelial electrical resistance was assessed with an epithelial Volt-Ohm meter system. Finally,epithelial permeability was analysed by using a cell layer integrity test and baseline cytokine levels where measured by an enzyme-linked immunosorbent assay. RESULTS Pediatric CF nasal cultures grown at the ALI showed a differentiation into a pseudostratified epithelium with a mucociliary phenotype. Also,immunofluorescence analysis revealed the presence of ciliated,mucus-secreting and basal cells and tight junctions. CFTR protein expression was observed in CF (F508del/F508del) and healthy cultures and baseline interleukin (IL)-8 and IL-6 release were similar in control and CF ALI cultures. The ciliary beat frequency was 9.67 Hz and the differentiated pediatric CF epithelium was found to be functionally tight. CONCLUSION In summary,primary pediatric CF nasal epithelial cell cultures grown at the ALI showed full differentiation into ciliated,mucus-producing and basal cells,which adequately reflect the in vivo properties of the human respiratory epithelium. View Publication