Corticosteroid and Cytokines Synergistically Enhance Toll-Like Receptor 2 Expression in Respiratory Epithelial Cells

Homma, Toshiki; Kato, Atsushi; Hashimoto, Noriko; Batchelor, Jonathan; Yoshikawa, Mamoru; Imai, Shosuke; Wakiguchi, Hiroshi; Saito, Hirohisa; Matsumoto, Kenji

doi:10.1165/rcmb.2004-0161oc

Cited by 135 publications

(111 citation statements)

References 37 publications

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“…In the same way, responsiveness to the Grampositive bacterium S. aureus could be induced by transfection of TLR2 and TLR2/CD36, thus paralleling the findings with LTA. Moreover, it has been reported that TNF-␣ and IFN-␥ increase expression of TLR2 in respiratory epithelial cells (30). Indeed, we observed that prestimulation of BEAS-2B cells with a combination of these both cytokines increased TLR2 mRNA expression (Fig.…”

Section: Expression Levels Of Tlr2 and Coreceptors Regulate Sensitivisupporting

confidence: 59%

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

Mayer

Muehmer

Mages

et al. 2007

The Journal of Immunology

167

154

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*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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Section: Expression Levels Of Tlr2 and Coreceptors Regulate Sensitivisupporting

confidence: 59%

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

Mayer

Muehmer

Mages

et al. 2007

The Journal of Immunology

167

154

View full text Add to dashboard Cite

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“…In fact, genetic complementation experiments with human TLR7 and TLR8 suggest that TLR8, not TLR7, is responsible for the recognition of single-stranded RNA in humans (41). Moreover, TLR7 and TLR8 are not expressed in human bronchial epithelial cells (44), and our experiments using a vector encoding a dominant-negative form of MyD88 rule out a role for those receptors in the activation of influenza A-infected human epithelial cells. Indeed, it was established that MyD88 is essential for the signaling downstream from TLR7 and TLR8 (41)(42)(43)45).…”

Section: Tlr3 Signaling and Respiratory Epithelial Cell Activationmentioning

confidence: 65%

Involvement of Toll-like Receptor 3 in the Immune Response of Lung Epithelial Cells to Double-stranded RNA and Influenza A Virus

Guillot

Goffic

Bloch

et al. 2005

Journal of Biological Chemistry

607

506

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Influenza A is a highly contagious single-stranded RNA virus that infects both the upper and lower respiratory tracts of humans. The host innate immune Tolllike receptor (TLR) 3 was shown previously in cells of myeloid origin to recognize the viral replicative, intermediate double-stranded RNA (dsRNA). Thus, dsRNA may be critical for the outcome of the infection. Here we first compared the activation triggered by either influenza A virus or dsRNA in pulmonary epithelial cells. We established that TLR3 is constitutively expressed in human alveolar and bronchial epithelial cells, and we describe its intracellular localization. Expression of TLR3 was positively regulated by the influenza A virus and by dsRNA but not by other inflammatory mediators, including bacterial lipopolysaccharide, the cytokines tumor necrosis factor-␣ and interleukin (IL)-1␤, and the protein kinase C activator phorbol 12-myristate 13-acetate. We also demonstrated that TLR3 contributes directly to the immune response of respiratory epithelial cells to influenza A virus and dsRNA, and we propose a molecular mechanism by which these stimuli induce epithelial cell activation. This model involves mitogen-activated protein kinases, phosphatidylinositol 3-kinase/ Akt signaling, and the TLR3-associated adaptor molecule TRIF but not MyD88-dependent activation of the transcription factors NF-B or interferon regulatory factor/interferon-sensitive response-element pathways. Ultimately, this signal transduction elicits an epithelial response that includes the secretion of the cytokines IL-8, IL-6, RANTES (regulated on activation normal T cell expressed and secreted), and interferon-␤ and the up-regulation of the major adhesion molecule ICAM-1.

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“…In contrast, the activation of IRF-3 induces production of type I IFN and induces an anti-viral response. Airway epithelial cells have been shown to express mainly TLR2-6 [4,5]. TLR2, which is heterodimerized with TLR1 or TLR6, recognizes bacterial components such as lipoprotein, peptidoglycan (PGN) and lipoteichoic acid, GPI anchor from protozoa and some viral envelope proteins such as those expressed by measles virus and human cytomegalovirus.…”

Section: Epithelium and Innate Immune Recognitionmentioning

confidence: 99%

“…Expression of the type I IFN, IFN-β, and type III IFNs, IFN-λ1 (IL-29) and IFN-λ2/3 (IL-28A/B), is important in the antiviral response of the epithelium. TLR3 and RNA helicases are important sensors for detection of viral infection and induce production of IFN-β and IFN-λ in epithelial cells [4][5][6][7]. Type II IFN, IFN-γ, which is produced from activated T cells and NK cells, also activates IFN-λ production in epithelial cells, probably amplifying the antiviral effects of specific T cells.…”

Section: Epithelium and Host Defensementioning

confidence: 99%

Beyond inflammation: airway epithelial cells are at the interface of innate and adaptive immunity

Kato

Schleimer

2007

Current Opinion in Immunology

Self Cite

293

254

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Corticosteroid and Cytokines Synergistically Enhance Toll-Like Receptor 2 Expression in Respiratory Epithelial Cells

Cited by 135 publications

References 37 publications

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

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

Involvement of Toll-like Receptor 3 in the Immune Response of Lung Epithelial Cells to Double-stranded RNA and Influenza A Virus

Beyond inflammation: airway epithelial cells are at the interface of innate and adaptive immunity

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