Antiinflammatory effects of bromodomain and extraterminal domain inhibition in cystic fibrosis lung inflammation
Kong Chen, Brian T. Campfield, Sally E. Wenzel, Jeremy P. McAleer, James L. Kreindler, Geoffrey Kurland, Radha Gopal, Ting Wang, Wei Chen, Taylor Eddens, Kathleen M. Quinn, Mike M. Myerburg, William T. Horne, Jose M. Lora, Brian K. Albrecht, Joseph M. Pilewski, Jay K. Kolls
Kong Chen, Brian T. Campfield, Sally E. Wenzel, Jeremy P. McAleer, James L. Kreindler, Geoffrey Kurland, Radha Gopal, Ting Wang, Wei Chen, Taylor Eddens, Kathleen M. Quinn, Mike M. Myerburg, William T. Horne, Jose M. Lora, Brian K. Albrecht, Joseph M. Pilewski, Jay K. Kolls
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Research Article Inflammation Therapeutics

Antiinflammatory effects of bromodomain and extraterminal domain inhibition in cystic fibrosis lung inflammation

Abstract

Significant morbidity in cystic fibrosis (CF) results from chronic lung inflammation, most commonly due to Pseudomonas aeruginosa infection. Recent data suggest that IL-17 contributes to pathological inflammation in the setting of abnormal mucosal immunity, and type 17 immunity–driven inflammatory responses may represent a target to block aberrant inflammation in CF. Indeed, transcriptomic analysis of the airway epithelium from CF patients undergoing clinical bronchoscopy revealed upregulation of IL-17 downstream signature genes, implicating a substantial contribution of IL-17–mediated immunity in CF lungs. Bromodomain and extraterminal domain (BET) chromatin modulators can regulate T cell responses, specifically Th17-mediated inflammation, by mechanisms that include bromodomain-dependent inhibition of acetylated histones at the IL17 locus. Here, we show that, in vitro, BET inhibition potently suppressed Th17 cell responses in explanted CF tissue and inhibited IL-17–driven chemokine production in human bronchial epithelial cells. In an acute P. aeruginosa lung infection murine model, BET inhibition decreased inflammation, without exacerbating infection, suggesting that BET inhibition may be a potential therapeutic target in patients with CF.

Authors

Kong Chen, Brian T. Campfield, Sally E. Wenzel, Jeremy P. McAleer, James L. Kreindler, Geoffrey Kurland, Radha Gopal, Ting Wang, Wei Chen, Taylor Eddens, Kathleen M. Quinn, Mike M. Myerburg, William T. Horne, Jose M. Lora, Brian K. Albrecht, Joseph M. Pilewski, Jay K. Kolls

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Figure 3

CPI-203 potently suppresses Th17 downstream chemokines and cytokines in HBE cells.

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CPI-203 potently suppresses Th17 downstream chemokines and cytokines in ...
HBE cell lines from 3 CF and 3 non-CF (labeled as HBE) donors were established in the air-liquid interphase culture and treated with vehicle (Veh) or 200 nM CPI-203 (CPI) for 3 days. (A) Culture supernatants were harvested for analysis on proinflammatory chemokines and cytokines by Luminex, and (B) RNA-seq was conducted on the cells and relative gene expression is shown. *P < 0.05, **P < 0.005, ***P < 0.0005 by ANOVA.