IL-13–induced airway mucus production is attenuated by MAPK13 inhibition

Alevy, Yael G.; Patel, Anand C.; Romero, Arthur G.; Patel, Dhara A.; Tucker, Jennifer; Roswit, William T.; Miller, Chantel A.; Heier, Richard F.; Byers, Derek E.; Brett, Tom J.; Holtzman, Michael J.

doi:10.1172/jci64896

Cited by 167 publications

(285 citation statements)

References 71 publications

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“…2010; Alevy et al. 2012). Goblet cell metaplasia is increased in smokers, and several studies using cigarette smoke have shown the induction of MUC5AC (Wright et al.…”

Section: Discussionmentioning

confidence: 99%

Cigarette smoke differentially affects IL-13-induced gene expression in human airway epithelial cells

et al. 2017

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Allergic airways inflammation in asthma is characterized by an airway epithelial gene signature composed of POSTN,CLCA1, and SERPINB2. This Th2 gene signature is proposed as a tool to classify patients with asthma into Th2‐high and Th2‐low phenotypes. However, many asthmatics smoke and the effects of cigarette smoke exposure on the epithelial Th2 gene signature are largely unknown. Therefore, we investigated the combined effect of IL‐13 and whole cigarette smoke (CS) on the Th2 gene signature and the mucin‐related genes MUC5AC and SPDEF in air–liquid interface differentiated human bronchial (ALI‐PBEC) and tracheal epithelial cells (ALI‐PTEC). Cultures were exposed to IL‐13 for 14 days followed by 5 days of IL‐13 with CS exposure. Alternatively, cultures were exposed once daily to CS for 14 days, followed by 5 days CS with IL‐13. POSTN,SERPINB2, and CLCA1 expression were measured 24 h after the last exposure to CS and IL‐13. In both models POSTN,SERPINB2, and CLCA1 expression were increased by IL‐13. CS markedly affected the IL‐13‐induced Th2 gene signature as indicated by a reduced POSTN,CLCA1, and MUC5AC expression in both models. In contrast, IL‐13‐induced SERPINB2 expression remained unaffected by CS, whereas SPDEF expression was additively increased. Importantly, cessation of CS exposure failed to restore IL‐13‐induced POSTN and CLCA1 expression. We show for the first time that CS differentially affects the IL‐13‐induced gene signature for Th2‐high asthma. These findings provide novel insights into the interaction between Th2 inflammation and cigarette smoke that is important for asthma pathogenesis and biomarker‐guided therapy in asthma.

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“…2010; Alevy et al. 2012). Goblet cell metaplasia is increased in smokers, and several studies using cigarette smoke have shown the induction of MUC5AC (Wright et al.…”

Section: Discussionmentioning

confidence: 99%

Cigarette smoke differentially affects IL-13-induced gene expression in human airway epithelial cells

et al. 2017

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“…In this model, airway progenitor cells differentiate into functional ciliated and secretory cells when subjected to an ALI (air-liquid interface) condition for 18-21 d. The best, established model for induction of goblet cells is treatment with IL13. 11,37 We devised a protocol whereby treatment of cells with IL13 for 7 or 21 d ( Fig. 2A) resulted in an increased number of MUC5AC-positive cells and elevated levels of MUC5AC RNA (Fig.…”

Section: Il13 Induces Muc5ac Secretion In Human Tracheobronchial Epitmentioning

confidence: 99%

“…Using approaches similar to these, our group has recently demonstrated that airway epithelial cell IL33 (interleukin 33) leads to IL13 production and lung pathology in a mouse model and in cells obtained from patients with COPD. [11][12][13][14] IL13 is a Th2-type cytokine that is elevated in COPD as well as in asthma and other lung diseases. 11,[15][16][17] In the airway, IL13 regulates the differentiation of epithelial cells to goblet cells via intracellular signaling through the IL4R (interleukin 4 receptor) and IL13RA1 (interleukin 13 receptor, a 1) receptor heterodimer and STAT6 (signal transducer and activator of transcription 6).…”

Section: Introductionmentioning

confidence: 99%

“…[11][12][13][14] IL13 is a Th2-type cytokine that is elevated in COPD as well as in asthma and other lung diseases. 11,[15][16][17] In the airway, IL13 regulates the differentiation of epithelial cells to goblet cells via intracellular signaling through the IL4R (interleukin 4 receptor) and IL13RA1 (interleukin 13 receptor, a 1) receptor heterodimer and STAT6 (signal transducer and activator of transcription 6). 12,13 Functionally, IL13 has been postulated to increase both intracellular oxidant stress and the secretion of MUC5AC (mucin 5AC, oligomeric mucus/gel forming), the dominant gel forming mucin in airway epithelial cells.…”

Section: Introductionmentioning

confidence: 99%

“…Airway epithelial cells treated with IL13 have increased oxidant activity, 18,19 higher numbers of MUC5AC-expressing cells and more MUC5AC secreted in the apical media. 11,20 The mechanism utilized by the goblet cell to adapt to the stress of IL13-mediated acceleration in activity is not known.…”

Section: Introductionmentioning

confidence: 99%

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IL13 activates autophagy to regulate secretion in airway epithelial cells

et al. 2016

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Cytokine modulation of autophagy is increasingly recognized in disease pathogenesis, and current concepts suggest that type 1 cytokines activate autophagy, whereas type 2 cytokines are inhibitory. However, this paradigm derives primarily from studies of immune cells and is poorly characterized in tissue cells, including sentinel epithelial cells that regulate the immune response. In particular, the type 2 cytokine IL13 (interleukin 13) drives the formation of airway goblet cells that secrete excess mucus as a characteristic feature of airway disease, but whether this process is influenced by autophagy was undefined. Here we use a mouse model of airway disease in which IL33 (interleukin 33) stimulation leads to IL13-dependent formation of airway goblet cells as tracked by levels of mucin MUC5AC (mucin 5AC, oligomeric mucus/gel forming), and we show that these cells manifest a block in mucus secretion in autophagy gene Atg16l1-deficient mice compared to wild-type control mice. Similarly, primary-culture human tracheal epithelial cells treated with IL13 to stimulate mucus formation also exhibit a block in MUC5AC secretion in cells depleted of autophagy gene ATG5 (autophagy-related 5) or ATG14 (autophagyrelated 14) compared to nondepleted control cells. Our findings indicate that autophagy is essential for airway mucus secretion in a type 2, IL13-dependent immune disease process and thereby provide a novel therapeutic strategy for attenuating airway obstruction in hypersecretory inflammatory diseases such as asthma, chronic obstructive pulmonary disease, and cystic fibrosis lung disease. Taken together, these observations suggest that the regulation of autophagy by Th2 cytokines is cell-context dependent.

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