IL-17A enhances IL-13 activity by enhancing IL-13–induced signal transducer and activator of transcription 6 activation

Increased IL-17A production has been associated with more severe asthma; however, the mechanisms whereby IL-17A can contribute to IL-13–driven pathology in asthmatic patients remain unclear. We sought to gain mechanistic insight into how IL-17A can influence IL-13–driven responses. The effect of IL-...

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Published in	Journal of allergy and clinical immunology Vol. 139; no. 2; pp. 462 - 471.e14
Main Authors	Hall, Sara L., Baker, Theresa, Lajoie, Stephane, Richgels, Phoebe K., Yang, Yanfen, McAlees, Jaclyn W., van Lier, Adelaide, Wills-Karp, Marsha, Sivaprasad, Umasundari, Acciani, Thomas H., LeCras, Timothy D., Myers, Jocelyn Biagini, Kovacic, Melinda Butsch, Lewkowich, Ian P.
Format	Journal Article
Language	English
Published	United States Elsevier Inc 01.02.2017 Elsevier Limited
Subjects	Airway management Allergy and Immunology Animals Asthma Asthma - chemically induced Asthma - immunology Cell Line Cytokines Cytokines - metabolism Fibroblasts - immunology Gene expression Gene Expression Regulation Human subjects Humans IL-13 IL-17A Inflammation Interleukin-13 - metabolism Interleukin-13 Receptor alpha2 Subunit - genetics Interleukin-17 - metabolism Mice Mice, Inbred BALB C Mice, Knockout Pathogenesis Pathology Pneumonia - chemically induced Pneumonia - immunology Proteins Receptors, Interleukin-17 - genetics signal transducer and activator of transcription 6 Signal Transduction Smooth muscle STAT6 Transcription Factor - genetics STAT6 Transcription Factor - metabolism Studies Th2 Cells - immunology IL-17A signal transduction pSTAT6 IL-13 AHR BAL NEC Asthma signal transducer and activator of transcription 6 AUC IL-13R PE t1/2 cytokines STAT6 WT CLCA3 Phosphorylated STAT6 Bronchoalveolar lavage Area under the curve Half-life Chloride channel, calcium activated 3 Wild-type Airway hyperresponsiveness IL-13 receptor Phycoerythrin Nasal epithelial cell
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ISSN	0091-6749 1085-8725 1097-6825 1097-6825
DOI	10.1016/j.jaci.2016.04.037

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Abstract	Increased IL-17A production has been associated with more severe asthma; however, the mechanisms whereby IL-17A can contribute to IL-13–driven pathology in asthmatic patients remain unclear. We sought to gain mechanistic insight into how IL-17A can influence IL-13–driven responses. The effect of IL-17A on IL-13–induced airway hyperresponsiveness, gene expression, mucus hypersecretion, and airway inflammation was assessed by using in vivo models of IL-13–induced lung pathology and in vitro culture of murine fibroblast cell lines and primary fibroblasts and human epithelial cell lines or primary human epithelial cells exposed to IL-13, IL-17A, or both. Compared with mice given intratracheal IL-13 alone, those exposed to IL-13 and IL-17A had augmented airway hyperresponsiveness, mucus production, airway inflammation, and IL-13–induced gene expression. In vitro, IL-17A enhanced IL-13–induced gene expression in asthma-relevant murine and human cells. In contrast to the exacerbating influence of IL-17A on IL-13–induced responses, coexposure to IL-13 inhibited IL-17A–driven antimicrobial gene expression in vivo and in vitro. Mechanistically, in both primary human and murine cells, the IL-17A–driven increase in IL-13–induced gene expression was associated with enhanced IL-13–driven signal transducer and activator of transcription 6 activation. Our data suggest that IL-17A contributes to asthma pathophysiology by increasing the capacity of IL-13 to activate intracellular signaling pathways, such as signal transducer and activator of transcription 6. These data represent the first mechanistic explanation of how IL-17A can directly contribute to the pathogenesis of IL-13–driven pathology. [Display omitted]
AbstractList	Background Increased IL-17A production has been associated with more severe asthma; however, the mechanisms whereby IL-17A can contribute to IL-13-driven pathology in asthmatic patients remain unclear. Objective We sought to gain mechanistic insight into how IL-17A can influence IL-13-driven responses. Methods The effect of IL-17A on IL-13-induced airway hyperresponsiveness, gene expression, mucus hypersecretion, and airway inflammation was assessed by using in vivo models of IL-13-induced lung pathology and in vitro culture of murine fibroblast cell lines and primary fibroblasts and human epithelial cell lines or primary human epithelial cells exposed to IL-13, IL-17A, or both. Results Compared with mice given intratracheal IL-13 alone, those exposed to IL-13 and IL-17A had augmented airway hyperresponsiveness, mucus production, airway inflammation, and IL-13-induced gene expression. In vitro, IL-17A enhanced IL-13-induced gene expression in asthma-relevant murine and human cells. In contrast to the exacerbating influence of IL-17A on IL-13-induced responses, coexposure to IL-13 inhibited IL-17A-driven antimicrobial gene expression in vivo and in vitro. Mechanistically, in both primary human and murine cells, the IL-17A-driven increase in IL-13-induced gene expression was associated with enhanced IL-13-driven signal transducer and activator of transcription 6 activation. Conclusions Our data suggest that IL-17A contributes to asthma pathophysiology by increasing the capacity of IL-13 to activate intracellular signaling pathways, such as signal transducer and activator of transcription 6. These data represent the first mechanistic explanation of how IL-17A can directly contribute to the pathogenesis of IL-13-driven pathology. Background Increased IL-17A production has been associated with more severe asthma; however, the mechanisms whereby IL-17A can contribute to IL-13–driven pathology in asthmatic patients remain unclear. Objective We sought to gain mechanistic insight into how IL-17A can influence IL-13–driven responses. Methods The effect of IL-17A on IL-13–induced airway hyperresponsiveness, gene expression, mucus hypersecretion, and airway inflammation was assessed by using in vivo models of IL-13–induced lung pathology and in vitro culture of murine fibroblast cell lines and primary fibroblasts and human epithelial cell lines or primary human epithelial cells exposed to IL-13, IL-17A, or both. Results Compared with mice given intratracheal IL-13 alone, those exposed to IL-13 and IL-17A had augmented airway hyperresponsiveness, mucus production, airway inflammation, and IL-13–induced gene expression. In vitro , IL-17A enhanced IL-13–induced gene expression in asthma-relevant murine and human cells. In contrast to the exacerbating influence of IL-17A on IL-13–induced responses, coexposure to IL-13 inhibited IL-17A–driven antimicrobial gene expression in vivo and in vitro . Mechanistically, in both primary human and murine cells, the IL-17A–driven increase in IL-13–induced gene expression was associated with enhanced IL-13–driven signal transducer and activator of transcription 6 activation. Conclusions Our data suggest that IL-17A contributes to asthma pathophysiology by increasing the capacity of IL-13 to activate intracellular signaling pathways, such as signal transducer and activator of transcription 6. These data represent the first mechanistic explanation of how IL-17A can directly contribute to the pathogenesis of IL-13–driven pathology. Background Increased IL-17A production has been associated with more severe asthma; however, the mechanisms whereby IL-17A can contribute to IL-13-driven pathology in asthmatic patients remain unclear. Objective We sought to gain mechanistic insight into how IL-17A can influence IL-13-driven responses. Methods The effect of IL-17A on IL-13-induced airway hyperresponsiveness, gene expression, mucus hypersecretion, and airway inflammation was assessed by usingin vivomodels of IL-13-induced lung pathology andin vitroculture of murine fibroblast cell lines and primary fibroblasts and human epithelial cell lines or primary human epithelial cells exposed to IL-13, IL-17A, or both. Results Compared with mice given intratracheal IL-13 alone, those exposed to IL-13 and IL-17A had augmented airway hyperresponsiveness, mucus production, airway inflammation, and IL-13-induced gene expression.In vitro, IL-17A enhanced IL-13-induced gene expression in asthma-relevant murine and human cells. In contrast to the exacerbating influence of IL-17A on IL-13-induced responses, coexposure to IL-13 inhibited IL-17A-driven antimicrobial gene expressionin vivoandin vitro. Mechanistically, in both primary human and murine cells, the IL-17A-driven increase in IL-13-induced gene expression was associated with enhanced IL-13-driven signal transducer and activator of transcription 6 activation. Conclusions Our data suggest that IL-17A contributes to asthma pathophysiology by increasing the capacity of IL-13 to activate intracellular signaling pathways, such as signal transducer and activator of transcription 6. These data represent the first mechanistic explanation of how IL-17A can directly contribute to the pathogenesis of IL-13-driven pathology. Increased IL-17A production has been associated with more severe asthma; however, the mechanisms whereby IL-17A can contribute to IL-13–driven pathology in asthmatic patients remain unclear. We sought to gain mechanistic insight into how IL-17A can influence IL-13–driven responses. The effect of IL-17A on IL-13–induced airway hyperresponsiveness, gene expression, mucus hypersecretion, and airway inflammation was assessed by using in vivo models of IL-13–induced lung pathology and in vitro culture of murine fibroblast cell lines and primary fibroblasts and human epithelial cell lines or primary human epithelial cells exposed to IL-13, IL-17A, or both. Compared with mice given intratracheal IL-13 alone, those exposed to IL-13 and IL-17A had augmented airway hyperresponsiveness, mucus production, airway inflammation, and IL-13–induced gene expression. In vitro, IL-17A enhanced IL-13–induced gene expression in asthma-relevant murine and human cells. In contrast to the exacerbating influence of IL-17A on IL-13–induced responses, coexposure to IL-13 inhibited IL-17A–driven antimicrobial gene expression in vivo and in vitro. Mechanistically, in both primary human and murine cells, the IL-17A–driven increase in IL-13–induced gene expression was associated with enhanced IL-13–driven signal transducer and activator of transcription 6 activation. Our data suggest that IL-17A contributes to asthma pathophysiology by increasing the capacity of IL-13 to activate intracellular signaling pathways, such as signal transducer and activator of transcription 6. These data represent the first mechanistic explanation of how IL-17A can directly contribute to the pathogenesis of IL-13–driven pathology. [Display omitted] Increased IL-17A production has been associated with more severe asthma; however, the mechanisms whereby IL-17A can contribute to IL-13-driven pathology in asthmatic patients remain unclear. We sought to gain mechanistic insight into how IL-17A can influence IL-13-driven responses. The effect of IL-17A on IL-13-induced airway hyperresponsiveness, gene expression, mucus hypersecretion, and airway inflammation was assessed by using in vivo models of IL-13-induced lung pathology and in vitro culture of murine fibroblast cell lines and primary fibroblasts and human epithelial cell lines or primary human epithelial cells exposed to IL-13, IL-17A, or both. Compared with mice given intratracheal IL-13 alone, those exposed to IL-13 and IL-17A had augmented airway hyperresponsiveness, mucus production, airway inflammation, and IL-13-induced gene expression. In vitro, IL-17A enhanced IL-13-induced gene expression in asthma-relevant murine and human cells. In contrast to the exacerbating influence of IL-17A on IL-13-induced responses, coexposure to IL-13 inhibited IL-17A-driven antimicrobial gene expression in vivo and in vitro. Mechanistically, in both primary human and murine cells, the IL-17A-driven increase in IL-13-induced gene expression was associated with enhanced IL-13-driven signal transducer and activator of transcription 6 activation. Our data suggest that IL-17A contributes to asthma pathophysiology by increasing the capacity of IL-13 to activate intracellular signaling pathways, such as signal transducer and activator of transcription 6. These data represent the first mechanistic explanation of how IL-17A can directly contribute to the pathogenesis of IL-13-driven pathology.
Author	Lajoie, Stephane Wills-Karp, Marsha McAlees, Jaclyn W. Richgels, Phoebe K. Sivaprasad, Umasundari LeCras, Timothy D. Kovacic, Melinda Butsch Lewkowich, Ian P. van Lier, Adelaide Baker, Theresa Yang, Yanfen Acciani, Thomas H. Hall, Sara L. Myers, Jocelyn Biagini
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Copyright	2016 American Academy of Allergy, Asthma & Immunology American Academy of Allergy, Asthma & Immunology Copyright © 2016 American Academy of Allergy, Asthma & Immunology. Published by Elsevier Inc. All rights reserved. Copyright Elsevier Limited Feb 01, 2017
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Keywords	IL-17A signal transduction pSTAT6 IL-13 AHR BAL NEC Asthma signal transducer and activator of transcription 6 AUC IL-13R PE t1/2 cytokines STAT6 WT CLCA3 Phosphorylated STAT6 Bronchoalveolar lavage Area under the curve Half-life Chloride channel, calcium activated 3 Wild-type Airway hyperresponsiveness IL-13 receptor Phycoerythrin Nasal epithelial cell
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Snippet	Increased IL-17A production has been associated with more severe asthma; however, the mechanisms whereby IL-17A can contribute to IL-13–driven pathology in... Background Increased IL-17A production has been associated with more severe asthma; however, the mechanisms whereby IL-17A can contribute to IL-13–driven... Increased IL-17A production has been associated with more severe asthma; however, the mechanisms whereby IL-17A can contribute to IL-13-driven pathology in... Background Increased IL-17A production has been associated with more severe asthma; however, the mechanisms whereby IL-17A can contribute to IL-13-driven...
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SubjectTerms	Airway management Allergy and Immunology Animals Asthma Asthma - chemically induced Asthma - immunology Cell Line Cytokines Cytokines - metabolism Fibroblasts - immunology Gene expression Gene Expression Regulation Human subjects Humans IL-13 IL-17A Inflammation Interleukin-13 - metabolism Interleukin-13 Receptor alpha2 Subunit - genetics Interleukin-17 - metabolism Mice Mice, Inbred BALB C Mice, Knockout Pathogenesis Pathology Pneumonia - chemically induced Pneumonia - immunology Proteins Receptors, Interleukin-17 - genetics signal transducer and activator of transcription 6 Signal Transduction Smooth muscle STAT6 Transcription Factor - genetics STAT6 Transcription Factor - metabolism Studies Th2 Cells - immunology
Title	IL-17A enhances IL-13 activity by enhancing IL-13–induced signal transducer and activator of transcription 6 activation
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