Axin pathway activity regulates in vivo pY654-β-catenin accumulation and pulmonary fibrosis.

Epithelial to mesenchymal transition (EMT) and pulmonary fibrogenesis require epithelial integrin α3β1-mediated cross-talk between TGFβ1 and Wnt signaling pathways. One hallmark of this cross-talk is pY654-β-catenin accumulation, but whether pY654-β-catenin is a biomarker of fibrogenesis or functionally important is unknown. To clarify further the role of β-catenin in fibrosis, we explored pY654-β-catenin generation and function. α3β1 was required for TGFβ1-mediated activation of Src family kinases, and Src inhibition blocked both pY654 and EMT in primary alveolar epithelial cells (AECs). TGFβ1 stimulated β-catenin/Lef1-dependent promoter activity comparably in immortalized AECs stably expressing WT β-catenin as well as Y654E or Y654F β-catenin point mutants. But EMT was abrogated in the Tyr to Phe mutant. pY654-β-catenin was sensitive to the axin β-catenin turnover pathway as inhibition of tankyrase 1 led to high AEC axin levels, loss of pY654-β-catenin, and inhibition of EMT ex vivo. Mice given a tankyrase inhibitor (50 mg/kg orally) daily for 7 days beginning 10 days after intratracheal bleomycin had improved survival over controls. Treated mice developed raised axin levels in the lung that abrogated pY654-β-catenin and attenuated lung Snail1, Twist1, α-smooth muscle actin, and type I collagen accumulation. Total β-catenin levels were unaltered. These findings identify Src kinase(s) as a mediator of TGFβ1-induced pY654-β-catenin, provide evidence that pY654-β-catenin levels are a critical determinant of EMT and fibrogenesis, and suggest regulation of axin levels as a novel therapeutic approach to fibrotic disorders.