Novel proteins identified by proteomic technology and genetic polymorphisms from genome association studies offer the possibility for further refinement and individualization of biomarker fibrosis models in the future. “
“Aim:  Recent studies have suggested that increased α-smooth muscle-actin

positive myofibroblastic cells (α-SMA positive CAF) in the desmoplastic stroma may relate to a more aggressive cancer and worse survival outcomes for intrahepatic cholangiocarcinoma (ICC) patients. To facilitate investigating cellular and molecular interactions between α-SMA positive CAF and cholangiocarcinoma cells related to ICC progression, we developed a novel 3-D organotypic culture model of cholangiocarcinoma that more accurately mimics the stromal microenvironment, gene expression profile and select pathophysiological characteristics Epigenetics inhibitor of desmoplastic ICC in vivo. Methods:  This unique model was established by co-culturing within a type I collagen gel matrix, a strain of Fulvestrant cholangiocarcinoma cells (derived from an ICC formed in syngeneic rat liver following bile duct inoculation of spontaneously-transformed rat cholangiocytes) with varying numbers of clonal α-SMA positive CAF established from the same tumor type. Results:  Cholangiocarcinoma cells and α-SMA positive CAF in

monoculture each exhibited cell-specific biomarker gene expression profiles characteristic of stromal much myofibroblastic cell versus malignant cholangiocyte cell types. In comparison, the gene expression profile and histopathological characteristics exhibited by the organotypic co-culture closely resembled those of whole tissue samples of the parent orthotopic ICC. We further showed α-SMA positive CAF to significantly enhance cholangiocarcinoma cell “ductal-like” growth

and cancer cell migration/invasiveness in vitro, as well as to promote upregulated expression of select genes known to be associated with ICC invasion. Conclusion:  This novel organotypic model provides an important new resource for studying the effects of microenvironment on cholangiocarcinoma progression in vitro and may have potential as a preclinical model for identifying molecularly targeted therapies. “
“The natural course of HCV infection remains controversial. The German HCV (1b)-contaminated anti-D cohort provides an ideal population to investigate the natural course of HCV infection in a large, homogenous cohort of young women from the date of HCV inoculation. Our previous follow-up studies at 20 and 25 years after infection suggested slow fibrosis progression rates in this unique cohort. The aim of our prospective, community-based, multicenter study was to reevaluate the liver disease progression in 718 patients of the original anti-D cohort at 35 years after infection.