C. Hess scite author profile

*Bronchial epithelial cells represent the first line of defense against invading airborne pathogens. They are important contributors to innate mucosal immunity and provide a variety of antimicrobial effectors. However, mucosal surfaces are prone to contact with pathogenic, as well as nonpathogenic microbes, and therefore, immune recognition principles have to be tightly controlled to avoid uncontrolled permanent activation. TLRs have been shown to recognize conserved microbial patterns and to mediate inducible activation of innate immunity. Our experiments demonstrate that bronchial epithelial cells express functional TLR1-6 and TLR9 and thus make use of a common principle of professional innate immune cells. Although it was observed that TLR2 ligands dependent on heterodimeric signaling either with TLR1 or TLR6 were functional, other ligands like lipoteichoic acid were not. Additionally, it was found that bronchial epithelial cells could be stimulated only marginally by Gram-positive bacteria bearing known TLR2 ligands while Gram-negative bacteria were easily recognized. This correlated with low expression of TLR2 and the missing expression of the coreceptor CD36. Transgenic expression of both receptors restored responsiveness to the complete set of TLR2 ligands and Staphylococcus aureus. Additional gene-array experiments confirmed hyporesponsiveness to this bacterium while Pseudomonas aeruginosa and respiratory syncytial virus induced common, as well as pathogen-specific, sets of genes. The findings indicate that bronchial epithelium regulates its sensitivity to recognize microbes by managing receptor expression levels. This could serve the special needs of controlled microbial recognition in mucosal compartments.

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Allergic Airway Inflammation Inhibits Pulmonary Antibacterial Host Defense

Beißwenger¹,

Kändler²,

Hess³

et al. 2006

109

117

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The innate immune system of the lung is a multicomponent host defense system and in addition has an instructing role in regulating the quality and quantity of the adaptive immune response. When the interaction between innate and adaptive immunity is disturbed, pathological conditions such as asthma can develop. It was the aim of the study to investigate the effect of the allergic inflammation of the lung on the innate host defense during bacterial infection. Human bronchial epithelial cells were preincubated with Th2 cytokines and infected with Pseudomonas aeruginosa. The effect of the Th2 cytokines on the mRNA levels of antimicrobial peptides and the antimicrobial activity of HBEC was determined. To investigate the influence of an allergic inflammation on pulmonary host defense in vivo, mice sensitized and challenged with OVA were infected with P. aeruginosa, and the number of viable bacteria in the lungs was determined together with markers of inflammation like cytokines and antimicrobial peptides. Exposure of airway epithelial cells to Th2 cytokines resulted in a significantly decreased antimicrobial activity of the cells and in suppressed mRNA levels of the antimicrobial peptide human β-defensin 2. Furthermore, mice with allergic airway inflammation had significantly more viable bacteria in their lungs after infection. This was consistent with reduced levels of proinflammatory cytokines and of the antimicrobial peptide cathelin-related antimicrobial peptide. These results show that an allergic airway inflammation suppresses the innate antimicrobial host defense. The adaptive immune system modulates the functions of the pulmonary innate immune system.

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Suppression of pulmonary innate host defence in smokers

Herr

Beißwenger²,

Hess³

et al. 2009

Thorax

130

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Aspergillus fumigatusconidia induce interferon-β signalling in respiratory epithelial cells

Beißwenger¹,

Hess²,

Bals³

2011

Eur Respir J

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Aspergillus fumigatus is a fungal pathogen of major clinical importance. However, little is known about the role of human bronchial epithelial cells (HBECs) during A. fumigatus conidia induced inflammation.Here, we show that differentiated respiratory epithelial cells recognise inactivated resting conidia but not swollen conidia or hyphae, resulting in the induction of the interferon (IFN)-b signalling pathway and the expression of IFN-b-inducible genes, such as IFN-c-inducible protein (IP)-10. This induction was internalisation dependent.We identified double-stranded conidial RNA recognised by Toll-like receptor-3 as a factor responsible for the expression of IFN-b and IP-10. Inhibition of receptor-interacting protein-1/ TANK-binding kinase-1, known to mediate IFN-b signalling, was sufficient to inhibit the induction of IFN-b and IP-10 expression by conidia. Even though conidia induced the activation of nuclear factor (NF)-kB in HBECs, IP-10 expression was only partially dependent on NF-kB signalling.These results provide evidence that respiratory cells are activated by the double-stranded RNA of resting conidia and initiate a first immune response to inhaled conidia in an IFN-b-dependent manner.

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Myeloid RelA regulates pulmonary host defense networks

Hess

Herr²,

Beißwenger³

et al. 2009

Eur Respir J

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The pulmonary innate immune system in the respiratory tract eliminates inhaled pathogens. Several cell types contribute to host defense within a complex network. The aim of this study was to evaluate the role of macrophages during pneumonia and in the regulation of the epithelial response to microorganisms.We performed lung infection models in mice lacking myeloid RelA/p65. To study the mechanistic relationships between individual cell types, we applied co-culture models composed of airway epithelial cells (AECs) and macrophages.Mice lacking myeloid RelA/p65 showed significantly decreased bacterial clearance, cytokine expression and neutrophil influx. In addition, the induction of epithelial keratinocyte chemoattractant expression was blunted in these animals. In vitro, AECs were largely insensitive to ligands of Toll-like receptor (TLR)2 or TLR5. Exposure to secretory products of macrophages results in an increased release of pro-inflammatory cytokines and augmented antimicrobial activity. This was associated with increased expression of TLR genes and surface expression of the proteins. Experiments with blocking antibodies showed that the effect of macrophages depends on secreted mediators, including tumour necrosis factor-a.In conclusion, the present data show that myeloid RelA is critical for pulmonary host defense. One important mechanism is that macrophages induce the sensitivity of AEC's to microbial patterns.

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C. Hess

Differential Recognition of TLR-Dependent Microbial Ligands in Human Bronchial Epithelial Cells

Allergic Airway Inflammation Inhibits Pulmonary Antibacterial Host Defense

Suppression of pulmonary innate host defence in smokers

Aspergillus fumigatusconidia induce interferon-β signalling in respiratory epithelial cells

Myeloid RelA regulates pulmonary host defense networks

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