• Chest · Jun 2013

    Synthetic response of stimulated respiratory epithelium: modulation by prednisolone and iKK2 inhibition.

    • Lucy Bianca Woodman, Wan Wing Yan Heidi WYH Institute for Lung Health, Department of Infection, Immunity and Inflammation, University of Leicester and Department of Respiratory Medicine, Glen, Roberta Milone, Ken Grace, Ana Sousa, Rick Williamson, and Christopher Edward Brightling.
    • Institute for Lung Health, Department of Infection, Immunity and Inflammation, University of Leicester and Department of Respiratory Medicine, Glenfield Hospital, Leicester, England.
    • Chest. 2013 Jun 1; 143 (6): 1656-1666.

    BackgroundThe airway epithelium plays a central role in wound repair and host defense and is implicated in the immunopathogenesis of asthma. Whether there are intrinsic differences between the synthetic capacity of epithelial cells derived from subjects with asthma and healthy control subjects and how this mediator release is modulated by antiinflammatory therapy remains uncertain. We sought to examine the synthetic function of epithelial cells from different locations in the airway tree from subjects with and without asthma and to determine the effects of antiinflammatory therapies upon this synthetic capacity.MethodsPrimary epithelial cells were derived from 17 subjects with asthma and 16 control subjects. The release of 13 cytokines and chemokines from nasal, bronchial basal, and air-liquid interface differentiated epithelial cells before and after stimulation with IL-1β, IL-1β and interferon-γ, or Poly-IC (Toll-like receptor 3 agonist) was measured using MesoScale discovery or enzyme-linked immunosorbent assay, and the effects of prednisolone and an inhibitor of nuclear factor κ-B2 (IKK2i) were determined.ResultsThe pattern of release of cytokines and chemokines was significantly different between nasal, bronchial basal, and differentiated epithelial cells but not between health and disease. Stimulation of the epithelial cells caused marked upregulation of most mediators, which were broadly corticosteroid unresponsive but attenuated by IKK2i.ConclusionSynthetic capacity of primary airway epithelial cells varied between location and degree of differentiation but was not disease specific. Activation of epithelial cells by proinflammatory cytokines and toll-like receptor 3 agonism is attenuated by IKK2i, but not corticosteroids, suggesting that IKK2i may represent an important novel therapy for asthma.

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