Astrid M. Doerner scite author profile

BackgroundChronic persistent asthma is characterized by ongoing airway inflammation and airway remodeling. The processes leading to airway remodeling are poorly understood, and there is increasing evidence that even aggressive anti-inflammatory therapy does not completely prevent this process. We sought to investigate whether TGFβ1 stimulates bronchial epithelial cells to undergo transition to a mesenchymal phenotype, and whether this transition can be abrogated by corticosteroid treatment or enhanced by the pro-inflammatory cytokine IL-1β.MethodsBEAS-2B and primary normal human bronchial epithelial cells were stimulated with TGFβ1 and expression of epithelial and mesenchymal markers assessed by quantitative real-time PCR, immunoblotting, immunofluorescence microscopy and zymography. In some cases the epithelial cells were also incubated with corticosteroids or IL-1β. Results were analyzed using non-parametric statistical tests.ResultsTreatment of BEAS-2B or primary human bronchial epithelial cells with TGFβ1 significantly reduced the expression level of the epithelial adherence junction protein E-cadherin. TGFβ1 then markedly induced mesenchymal marker proteins such as collagen I, tenascin C, fibronectin and α-smooth muscle actin mRNA in a dose dependant manner. The process of mesenchymal transition was accompanied by a morphological change towards a more spindle shaped fibroblast cell type with a more motile and invasive phenotype. Corticosteroid pre-treatment did not significantly alter the TGFβ1 induced transition but IL-1β enhanced the transition.ConclusionOur results indicate, that TGFβ1 can induce mesenchymal transition in the bronchial epithelial cell line and primary cells. Since asthma has been strongly associated with increased expression of TGFβ1 in the airway, epithelial to mesenchymal transition may contribute to the contractile and fibrotic remodeling process that accompanies chronic asthma.

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Cigarette Smoke Decreases Innate Responses of Epithelial Cells to Rhinovirus Infection

Eddleston¹,

Lee²,

Doerner³

et al. 2011

Am J Respir Cell Mol Biol

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Exposure to cigarette smoke is associated with a significant increase in the risk for respiratory viral infections. The airway epithelium is the primary target for both cigarette smoke and respiratory viral infection. We investigated the effects of cigarette smoke on the response of airway epithelial cells to rhinovirus infection. We found that pre-exposure of BEAS-2B cells or primary normal human bronchial epithelial cells (NHBEs) to cigarette smoke extract (CSE) reduced the induction of mRNA of the chemokines CXCL10 and CCL5 by either the viral mimic polyinosine-polycytidylic acid (Poly I:C) or human rhinovirus 16 (HRV-16) infection. The HRV-16-induced release of CXCL10 and CCL5 was also significantly suppressed by CSE. Activation of the IFN mediator STAT-1 and the activation of JNK by poly I:C and HRV-16 were partially suppressed by pre-exposure to CSE. In contrast, the poly I:C-induced and HRV-16-induced phosphorylation of ERK1/2 was unaffected by CSE. HRV-16-stimulated IFN-b mRNA was also significantly reduced by CSE. Because suppression of the IFN response to viral infection was associated with increased viral production, we assessed HRV-16 RNA concentrations. Exposure to CSE resulted in an increase in HRV-16 RNA at 48 hours after the infection of BEAS-2B cells. These data demonstrate that exposure to CSE alters the response of airway epithelial cells to HRV infection, leading to decreased activation of the IFN-STAT-1 and SAP-JNK pathways, the suppression of CXCL10 and CCL5 production, and increased viral RNA. A diminished, early epithelial-initiated antiviral response to rhinovirus infection could contribute to the increased susceptibility of subjects to prolonged respiratory viral infections after exposure to cigarette smoke.

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Rhinovirus infection interferes with induction of tolerance to aeroantigens through OX40 ligand, thymic stromal lymphopoietin, and IL-33

Mehta

Duan

Doerner

et al. 2016

Journal of Allergy and Clinical Immunology

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Background Rhinovirus (RV) infection during an early age has been associated with development of asthma, but how RV influences the immune response is not clear. Objective Tolerance to inhaled antigen is mediated via the induction of regulatory T cells (Treg), and we asked whether RV infection of the respiratory tract might block airway tolerance by modulating Treg cells. Methods The immune response to intranasal ovalbumin (OVA) in mice was assessed with concomitant infection with RV1B, and the factors induced in vivo were compared to factors made by human lung epithelial cells infected in vitro with RV16. Results RV1B infection of mice abrogated tolerance induced by inhalation of soluble OVA, suppressing the normal generation of Foxp3+ Treg cells while promoting Th2 cells. Furthermore, RV1B infection led to susceptibility to develop asthmatic lung disease when mice subsequently reencountered aeroantigen. RV1B promoted early in vivo expression of the TNF family protein, OX40L, on lung dendritic cells that was dependent on the innate cytokine thymic stromal lymphopoietin (TSLP), and also induced another innate cytokine IL-33. Inhibiting each of these pathways allowed the natural development of Treg cells while minimizing Th2 differentiation, and restored tolerance in the face of RV1B infection. In accordance, RV16 infection of human lung epithelial cells upregulated TSLP and IL-33 expression. Conclusions These results suggest that infection of the respiratory epithelium with RV can antagonize tolerance to inhaled antigen through a combined induction of TSLP, IL-33 and OX40L, and this may lead to susceptibility to developing asthmatic lung inflammation.

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An Atypical Protein Kinase C (PKCζ) Plays a Critical Role in Lipopolysaccharide-Activated NF-κB in Human Peripheral Blood Monocytes and Macrophages

Huang¹,

Chen

Doerner³

et al. 2009

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We have reported that the bacterial LPS induces the activation of NF-κB and inflammatory cytokine gene expression and that this requires the activity of small GTPase, RhoA. In this study, we show that an atypical protein kinase C isozyme, PKCζ, associates functionally with RhoA and that PKCζ acts as a signaling component downstream of RhoA. Stimulation of monocytes and macrophages with LPS resulted in PKCζ activation and that inhibition of PKCζ activity blocks both LPS-stimulated activation of NF-κB and IL-1β gene expression. Our results also indicate that transforming growth factor β-activated kinase 1 acts as a signaling component downstream of PKCζ in cytokine gene transcription stimulated by LPS in human peripheral blood monocytes and macrophages. The specificity of this response suggests an important role for the Rho GTPase/PKCζ/transforming growth factor β-activated kinase 1/NF-κB pathway in host defense and in proinflammatory cytokine synthesis induced by bacterial LPS.

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Astrid M. Doerner

TGF-β1 induced epithelial to mesenchymal transition (EMT) in human bronchial epithelial cells is enhanced by IL-1β but not abrogated by corticosteroids

Cigarette Smoke Decreases Innate Responses of Epithelial Cells to Rhinovirus Infection

Rhinovirus infection interferes with induction of tolerance to aeroantigens through OX40 ligand, thymic stromal lymphopoietin, and IL-33

An Atypical Protein Kinase C (PKCζ) Plays a Critical Role in Lipopolysaccharide-Activated NF-κB in Human Peripheral Blood Monocytes and Macrophages

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