Myeloperoxidase modulates lung epithelial responses to pro-inflammatory agents

A Haegens, JHJ Vernooy, P Heeringa… - European …, 2008 - Eur Respiratory Soc
A Haegens, JHJ Vernooy, P Heeringa, BT Mossman, EFM Wouters
European Respiratory Journal, 2008Eur Respiratory Soc
During extensive inflammation, neutrophils undergo secondary necrosis causing
myeloperoxidase (MPO) release that may damage resident lung cells. Recent observations
suggest that MPO has pro-inflammatory properties, independent of its enzymatic activity. The
aims of the present study were to characterise MPO internalisation by lung epithelial cells
and to investigate the effect of MPO on oxidative stress, DNA damage and cytokine
production by lung epithelial cells. Human alveolar and bronchial epithelial cells were …
During extensive inflammation, neutrophils undergo secondary necrosis causing myeloperoxidase (MPO) release that may damage resident lung cells. Recent observations suggest that MPO has pro-inflammatory properties, independent of its enzymatic activity. The aims of the present study were to characterise MPO internalisation by lung epithelial cells and to investigate the effect of MPO on oxidative stress, DNA damage and cytokine production by lung epithelial cells.
Human alveolar and bronchial epithelial cells were stimulated with MPO, with or without priming the cells with pro-inflammatory stimuli. MPO protein was detected in the cell cytoplasm. Expression of haemoxygenase (HO)-1 and DNA strand breakage were determined. The production of interleukin (IL)-8 and -6 were measured.
Analyses of MPO-stimulated cells demonstrated MPO presence in the cells. HO-1 expression was increased after MPO stimulation and increased further when cells were primed before MPO stimulation. MPO exposure also induced DNA strand breakage. Interestingly, MPO inhibited IL-8 production in bronchial, but not alveolar epithelium.
In conclusion, alveolar and bronchial epithelial cells can internalise myeloperoxidase. Stimulation with myeloperoxidase increases haemoxygenase-1 expression and DNA strand breakage, suggesting cell damaging capacity of myeloperoxidase. In addition, myeloperoxidase inhibited interleukin-8 production by bronchial epithelial cells, indicating a negative feedback loop for neutrophil recruitment.
European Respiratory Society