BACKGROUND AND OBJECTIVE: Airway bacterial infections pose a significant challenge to the management of COPD, a disease mainly caused by cigarette smoking. However, the mechanisms of impaired airway mucosal innate immunity against bacteria in COPD remain unclear. We examined the effect of cigarette smoke on prostaglandin E(2) (PGE(2)) and downstream epithelial host defence mechanisms including the antimicrobial substance human β-defensin-2 (hBD-2). METHODS: Brushed bronchial epithelial cells were obtained from healthy smokers and individuals with COPD, and cultured under air-liquid interface conditions with or without exposure to whole cigarette smoke (WCS) or Moraxella catarrhalis (Mc) infection. Bacterial load, hBD-2 (a molecule known to kill Mc) and PGE(2) were measured. RESULTS: WCS decreased Mc-induced hBD-2 expression and increased Mc load on bronchial epithelial cells from healthy smokers and COPD patients. Moreover, WCS inhibited PGE(2) induction following Mc. PGE(2) was shown to increase hBD-2 production in bronchial epithelial cells from healthy smokers, but not from COPD patients. CONCLUSIONS: The results suggest that in well-differentiated human bronchial epithelial cells, WCS may impair host defence against Mc in part through inhibiting PGE(2) production.
BACKGROUND AND OBJECTIVE: Airway bacterial infections pose a significant challenge to the management of COPD, a disease mainly caused by cigarette smoking. However, the mechanisms of impaired airway mucosal innate immunity against bacteria in COPD remain unclear. We examined the effect of cigarette smoke on prostaglandin E(2) (PGE(2)) and downstream epithelial host defence mechanisms including the antimicrobial substance human β-defensin-2 (hBD-2). METHODS: Brushed bronchial epithelial cells were obtained from healthy smokers and individuals with COPD, and cultured under air-liquid interface conditions with or without exposure to whole cigarette smoke (WCS) or Moraxella catarrhalis (Mc) infection. Bacterial load, hBD-2 (a molecule known to kill Mc) and PGE(2) were measured. RESULTS: WCS decreased Mc-induced hBD-2 expression and increased Mc load on bronchial epithelial cells from healthy smokers and COPDpatients. Moreover, WCS inhibited PGE(2) induction following Mc. PGE(2) was shown to increase hBD-2 production in bronchial epithelial cells from healthy smokers, but not from COPDpatients. CONCLUSIONS: The results suggest that in well-differentiated human bronchial epithelial cells, WCS may impair host defence against Mc in part through inhibiting PGE(2) production.
Authors: Gimano D Amatngalim; Jasmijn A Schrumpf; Almira Henic; Esther Dronkers; Renate M Verhoosel; Soledad R Ordonez; Henk P Haagsman; Maria E Fuentes; Sriram Sridhar; Jamil Aarbiou; Richard A J Janssen; Annemarie N Lekkerkerker; Pieter S Hiemstra Journal: J Innate Immun Date: 2017-02-08 Impact factor: 7.349
Authors: Rangnath Mishra; Daniel Foster; Vihas T Vasu; Jyoti V Thaikoottathil; Beata Kosmider; Hong Wei Chu; Russell P Bowler; James H Finigan Journal: Am J Respir Cell Mol Biol Date: 2016-06 Impact factor: 6.914