Effects of guaifenesin, N-acetylcysteine, and ambroxol on MUC5AC and mucociliary transport in primary differentiated human tracheal-bronchial cells Article

Seagrave, JC, Albrecht, HH, Hill, DB et al. (2012). Effects of guaifenesin, N-acetylcysteine, and ambroxol on MUC5AC and mucociliary transport in primary differentiated human tracheal-bronchial cells . 13 10.1186/1465-9921-13-98

cited authors

  • Seagrave, JC; Albrecht, HH; Hill, DB; Rogers, DF; Solomon, G

abstract

  • Background: Therapeutic intervention in the pathophysiology of airway mucus hypersecretion is clinically important. Several types of drugs are available with different possible modes of action. We examined the effects of guaifenesin (GGE), N-acetylcysteine (NAC) and ambroxol (Amb) on differentiated human airway epithelial cells stimulated with IL-13 to produce additional MUC5AC.Methods: After IL-13 pre-treatment (3 days), the cultures were treated with GGE, NAC or Amb (10-300 μM) in the continued presence of IL-13. Cellular and secreted MUC5AC, mucociliary transport rates (MTR), mucus rheology at several time points, and the antioxidant capacity of the drugs were assessed.Results: IL-13 increased MUC5AC content (~25%) and secretion (~2-fold) and decreased MTR, but only slightly affected the G' (elastic) or G" (viscous) moduli of the secretions. GGE significantly inhibited MUC5AC secretion and content in the IL-13-treated cells in a concentration-dependent manner (IC50s at 24 hr ~100 and 150 μM, respectively). NAC or Amb were less effective. All drugs increased MTR and decreased G' and G" relative to IL-13 alone. Cell viability was not affected and only NAC exhibited antioxidant capacity.Conclusions: Thus, GGE effectively reduces cellular content and secretion of MUC5AC, increases MTR, and alters mucus rheology, and may therefore be useful in treating airway mucus hypersecretion and mucostasis in airway diseases. © 2012 Seagrave et al.; licensee BioMed Central Ltd.

publication date

  • October 31, 2012

Digital Object Identifier (DOI)

volume

  • 13