Genetic Labeling Does Not Detect Epithelial-to-Mesenchymal Transition of Cholangiocytes in Liver Fibrosis in Mice

BACKGROUND & AIMS: Chronic injury changes the fate of certain cellular populations, inducing epithelial cells to generate fibroblasts by epithelial-to-mesenchymal transition (EMT) and mesenchymal cells to generate epithelial cells by mesenchymal-to-epithelial transition (MET). Although contribution of EMT/MET to embryogenesis, renal fibrosis, and lung fibrosis is well documented, role of EMT/MET in liver fibrosis is unclear. We determined whether cytokeratin-19 positive (K19(+)) cholangiocytes give rise to myofibroblasts (EMT) and/or whether glial fibrillary acidic protein positive (GFAP(+)) hepatic stellate cells (HSCs) can express epithelial markers (MET) in response to experimental liver injury. METHODS: EMT was studied with Cre-loxP system to map cell fate of K19(+) cholangiocytes in K19(YFP) or fibroblast-specific protein-1 (FSP-1)(YFP) mice, generated by crossing tamoxifen-inducible K19(CreERT) mice or FSP-1(Cre) mice with Rosa26(f/f-YFP) mice. MET of GFAP(+) HSCs was studied in GFAP(GFP) mice. Mice were subjected to bile duct ligation or CCl4-liver injury, and livers were analyzed for expression of mesodermal and epithelial markers. RESULTS: On Cre-loxP recombination, >40% of genetically labeled K19(+) cholangiocytes expressed yellow fluorescent protein (YFP). All mice developed liver fibrosis. However, specific immunostaining of K19(YFP) cholangiocytes showed no expression of EMT markers alpha-smooth muscle actin, desmin, or FSP-1. Moreover, cells genetically labeled by FSP-1(YFP) expression did not coexpress cholangiocyte markers K19 or E-cadherin. Genetically labeled GFAP(GFP) HSCs did not express epithelial or liver progenitor markers in response to liver injury. CONCLUSION: EMT of cholangiocytes identified by genetic labeling does not contribute to hepatic fibrosis in mice. Likewise, GFAP(Cre)-labeled HSCs showed no coexpression of epithelial markers, providing no evidence for MET in HSCs in response to fibrogenic liver injury.