When cultured in appropriate conditions in an oval cell colony formation assay,29 v6+ cells readily formed multiple cell colonies, which became apparent from day 7. Expression of v6 on progenitor-like cells was noted in human end-stage cirrhosis14,18 and attenuated Prochlorperazine ductular reaction upon v6 inhibition16,19 in biliary fibrosis models. However, it remained Tmem1 unknown how far integrin v6 is functionally involved in hepatic progenitor activation. Here, we performed mechanistic and studies to directly address the potential role of integrin v6 in regulating progenitor (oval) cell biology in the context of chronic liver injury. We report that v6 is expressed on activated hepatic progenitor cells and regulates their function. Isolated v6+ liver cells are able to form colonies and differentiate into cholangiocytes and hepatocytes and and subsequently inhibits hepatic fibrosis and tumorigenesis in murine cholangiopathy models. Materials and Methods Mouse Models of Sclerosing Cholangitis All mouse experiments were approved by the Institutional Animal Care and Use Committee of the Beth Israel Deaconess Medical Center (158C2008, 004C2012, 010C2015). FVB.multidrug resistance protein 2 (collagenase perfusion, followed by three low-speed (50test. Differences among selected experimental groups with 0.05 were considered significant. Results Expansion of Integrin v6-Expressing Ductal Cells Characterizes Human Biliary Cirrhosis and Parallels Fibrosis Progression in mRNA dramatically increased from week 4 through week 12 of age, paralleling fibrosis progression in this model (Fig. 1B).14 A similar expression pattern was observed in human samples from end-stage biliary cirrhosis due to PSC and PBC (Fig. 1C). In contrast, integrin v6 expression was absent from healthy human and murine livers (Supporting Figs. S1 and S2). Both v6 integrin-positive cell numbers and mRNA expression strongly correlated with degree of fibrosis (hepatic collagen levels) and activity of fibrogenesis (hepatic TGF1 and collagen type 1 1 [COL1A1] transcript levels) in as indicated) in (Fig. 2C). Primary oval cells isolated from mRNA 0.05. Abbreviations: DAPI, 4,6-diamidino-2-phenylindole; K19, cytokeratin 19; PCNA, proliferating cell nuclear antigen. Isolated v6+ Cells Express Progenitor (Oval) Cell Markers and Readily Differentiate Into Cholangiocytes and Hepatocytes progenitor (oval) cells, we isolated and characterized v6+ cells from crude nonparenchymal liver cells of (Fig. 2B), RNA from freshly isolated v6+ cells was highly enriched in Trop2 mRNA ( 200-fold) and other hepatic progenitor (oval) cell markers (CD133, EpCAM, -fetoprotein, Sox9, Fn14)36,37 and, to a lesser degree, cholangiocyte-specific (CK19, EpCAM) and hepatocyte-specific (albumin, TAT) mRNA (three-fold to 10-fold over the remaining v6? nonparenchymal cell fraction) (Fig. 3A). When cultured in appropriate conditions in an oval cell colony formation assay,29 v6+ cells readily formed multiple cell colonies, which became apparent from day 7. On day 14, large colonies consisted of cells having typical morphological features of either ductal cells (spindle-like shape) or hepatocytes (large, often diploid nuclei) (Fig. 3B). RT-PCR analysis of colonies revealed an up-regulation of differentiation markers of both cholangiocyte (HNF1, CK19) and hepatocyte (HNF4, albumin) lineages between day 7 and day 14, in a similar fashion to that Prochlorperazine observed in the EpCAM+ oval cell differentiation assay (Fig. 2D). At day 14, about 60%-70% of cells in colonies derived from v6+ cells expressed biliary marker CK19. All cells in the colonies maintained expression of v6, including CK19-negative cells with large and often diploid nuclei, morphologically resembling hepatocytes (Fig. 3D). Albumin secretion was readily detected in v6+ cell culture supernatants from day 7 and increased 2.5-fold by day 14, suggesting differentiation of v6+ cells into functional hepatocytes (Fig. 3E). Cells from v6+-derived colonies maintained high proliferative capacity upon multiple passages up to 5 weeks in culture (not shown). Open in a separate window Fig. 3 Isolated v6+ cells express progenitor (oval) cell markers and differentiate into cholangiocytes and functional hepatocytes 0.05. (B) Primary v6+ cells form cell colonies and differentiate into both cholangiocyte-like and hepatocyte-like cells 0.05. (D) Double-immunofluorescence for v6 integrin and CK19 demonstrate emergence of two distinct cell lineages in v6+ cell colony formation assay. All cells were v6-positive (red), and the majority Prochlorperazine coexpressed the cholangiocyte marker CK19 (green). CK19-negative cells represented a significant proportion of cells within colonies and demonstrate hepatocyte-like morphology with large and often diploid nuclei (arrows). Representative images of a single large colony derived from v6+ cells after 14.