Abstract
We recently reported that sputum osteoprotegerin (OPG) in COPD is higher than that in controls and is a potential biomarker in COPD (To M et.al. CHEST 2010 Dec 2 [Epub ahead of print]). However, the molecular mechanism involved in OPG elevation in COPD was not clarified yet. Here we investigated the role of glycogen synthase kinase-3β (GSK-3β) and β-catenin in OPG transcription, especially under oxidative stress.
A549 cells, an alveolar epithelial cell line, were treated with cigarette smoke conditioned media (CSM), and β-catenin protein was determined by westernblot. CSM induced OPG release (measured by ELISA) with a maximum induction of 147% and also increased β-catenin protein expression in a concentration-dependent manner with a maximum induction of 161%. A549 cells were transfected with β-catenin siRNA using lipofectamine for specific knockdown (KD) of β-catenin, and IL-1β stimulated OPG production by the A549 cells was measured by ELISA. β-catenin KD showed significantly lower OPG production at baseline and after IL-1β stimulation compared to non- transfected controls (466±13 pg/ml in β-catenin KD and 1712±35pg/ml in wild type without IL-1β, and 1213±37 pg/ml in β-catenin KD and 2669±16pg/ml in wild type under IL-1β stimulation). The inhibitor of GSK-3β, which controls β-catenin stabilisation, significantly increased OPG production with a maximum induction of 161% and with EC50 of 1.2 mM.
Thus, defect of GSK-3β causes β-catenin expression, leading upregulation of OPG. This will be a new insight on molecular mechanism of COPD pathogenesis.
- © 2011 ERS