Karim H Shalaby1, Miranda R Lyons-Cohen1, Gregory S Whitehead1, Seddon Y Thomas1, Immo Prinz2, Hideki Nakano1, Donald N Cook3. 1. Immunogenetics Group, Immunity, Inflammation and Disease Laboratory, Division of Intramural Research, National Institute of Environmental Health Sciences, National Institutes of Health, Research Triangle Park, NC. 2. Institut für Immunologie, Medizinische Hochschule, Hannover, Germany. 3. Immunogenetics Group, Immunity, Inflammation and Disease Laboratory, Division of Intramural Research, National Institute of Environmental Health Sciences, National Institutes of Health, Research Triangle Park, NC. Electronic address: cookd@niehs.nih.gov.
Abstract
BACKGROUND: Mechanisms that elicit mucosal TH17 cell responses have been described, yet how these cells are sustained in chronically inflamed tissues remains unclear. OBJECTIVE: We sought to understand whether maintenance of lung TH17 inflammation requires environmental agents in addition to antigen and to identify the lung antigen-presenting cell (APC) types that sustain the self-renewal of TH17 cells. METHODS: Animals were exposed repeatedly to aspiration of ovalbumin alone or together with environmental adjuvants, including common house dust extract (HDE), to test their role in maintaining lung inflammation. Alternatively, antigen-specific effector/memory TH17 cells, generated in culture with CD4+ T cells from Il17a fate-mapping mice, were adoptively transferred to assess their persistence in genetically modified animals lacking distinct lung APC subsets or cell-specific Toll-like receptor (TLR) 4 signaling. TH17 cells were also cocultured with lung APC subsets to determine which of these could revive their expansion and activation. RESULTS: TH17 cells and the consequent neutrophilic inflammation were poorly sustained by inhaled antigen alone but were augmented by inhalation of antigen together with HDE. This was associated with weight loss and changes in lung physiology consistent with interstitial lung disease. The effect of HDE required TLR4 signaling predominantly in lung hematopoietic cells, including CD11c+ cells. CD103+ and CD11b+ conventional dendritic cells interacted directly with TH17 cells in situ and revived the clonal expansion of TH17 cells both ex vivo and in vivo, whereas lung macrophages and B cells could not. CONCLUSION: TH17-dependent inflammation in the lungs can be sustained by persistent TLR4-mediated activation of lung conventional dendritic cells. Published by Elsevier Inc.
BACKGROUND: Mechanisms that elicit mucosal TH17 cell responses have been described, yet how these cells are sustained in chronically inflamed tissues remains unclear. OBJECTIVE: We sought to understand whether maintenance of lung TH17 inflammation requires environmental agents in addition to antigen and to identify the lung antigen-presenting cell (APC) types that sustain the self-renewal of TH17 cells. METHODS: Animals were exposed repeatedly to aspiration of ovalbumin alone or together with environmental adjuvants, including common house dust extract (HDE), to test their role in maintaining lung inflammation. Alternatively, antigen-specific effector/memory TH17 cells, generated in culture with CD4+ T cells from Il17a fate-mapping mice, were adoptively transferred to assess their persistence in genetically modified animals lacking distinct lung APC subsets or cell-specific Toll-like receptor (TLR) 4 signaling. TH17 cells were also cocultured with lung APC subsets to determine which of these could revive their expansion and activation. RESULTS: TH17 cells and the consequent neutrophilic inflammation were poorly sustained by inhaled antigen alone but were augmented by inhalation of antigen together with HDE. This was associated with weight loss and changes in lung physiology consistent with interstitial lung disease. The effect of HDE required TLR4 signaling predominantly in lung hematopoietic cells, including CD11c+ cells. CD103+ and CD11b+ conventional dendritic cells interacted directly with TH17 cells in situ and revived the clonal expansion of TH17 cells both ex vivo and in vivo, whereas lung macrophages and B cells could not. CONCLUSION: TH17-dependent inflammation in the lungs can be sustained by persistent TLR4-mediated activation of lung conventional dendritic cells. Published by Elsevier Inc.
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