Role of TGF-β signaling in differentiation of mesothelial cells to vitamin A-poor hepatic stellate cells in liver fibrosis

Myofibroblastic Conversion and Regeneration of Mesothelial Cells in Peritoneal and Liver Fibrosis

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The anti-fibrotic effects of CCN1/CYR61 in primary portal myofibroblasts are mediated through induction of reactive oxygen species resulting in cellular senescence, apoptosis and attenuated TGF-β signaling

(2014) Erawan Borkham-Kamphorst et al.   BIOCHIMICA ET BIOPHYSICA ACTA-MOLECULAR CELL RESEARCH

Mesodermal mesenchymal cells give rise to myofibroblasts, but not epithelial cells, in mouse liver injury

(2014) Ingrid Lua et al.   HEPATOLOGY

Molecular mechanisms of epithelial–mesenchymal transition

(2014) Samy Lamouille et al.   NATURE REVIEWS MOLECULAR CELL BIOLOGY

Derivation of lung mesenchymal lineages from the fetal mesothelium requires hedgehog signaling for mesothelial cell entry

(2013) R. Dixit et al.   DEVELOPMENT

LPA1-induced cytoskeleton reorganization drives fibrosis through CTGF-dependent fibroblast proliferation

(2013) Norihiko Sakai et al.   FASEB JOURNAL

Hepatic stellate cells in liver development, regeneration, and cancer

(2013) Chunyue Yin et al.   JOURNAL OF CLINICAL INVESTIGATION

Evolving therapies for liver fibrosis

(2013) Detlef Schuppan et al.   JOURNAL OF CLINICAL INVESTIGATION

Mesothelial cells give rise to hepatic stellate cells and myofibroblasts via mesothelial-mesenchymal transition in liver injury

(2013) Y. Li et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

Identification of a novel developmental mechanism in the generation of mesothelia

(2012) N. I. Winters et al.   DEVELOPMENT

Deactivation of Hepatic Stellate Cells During Liver Fibrosis Resolution in Mice

(2012) Juliane S. Troeger et al.   GASTROENTEROLOGY

Clinical evidence for the regression of liver fibrosis

(2012) Elizabeth L. Ellis et al.   JOURNAL OF HEPATOLOGY

Replacement of Retinyl Esters by Polyunsaturated Triacylglycerol Species in Lipid Droplets of Hepatic Stellate Cells during Activation

(2012) Nicole Testerink et al.   PLoS One

Myofibroblasts revert to an inactive phenotype during regression of liver fibrosis

(2012) T. Kisseleva et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

Pathogenesis of Liver Fibrosis

(2011) Virginia Hernandez-Gea et al.   Annual Review of Pathology-Mechanisms of Disease

Rosmarinic acid and baicalin epigenetically derepress peroxisomal proliferator-activated receptor γ in hepatic stellate cells for their antifibrotic effect

(2011) Melissa D. Yang et al.   HEPATOLOGY

Characterization and Functional Analyses of Hepatic Mesothelial Cells in Mouse Liver Development

(2010) Izumi Onitsuka et al.   GASTROENTEROLOGY

Septum transversum-derived mesothelium gives rise to hepatic stellate cells and perivascular mesenchymal cells in developing mouse liver

(2010) Kinji Asahina et al.   HEPATOLOGY

Ethanol-stimulated differentiated functions of human or mouse hepatic stellate cells are mediated by connective tissue growth factor

(2010) Li Chen et al.   JOURNAL OF HEPATOLOGY

Evolving challenges in hepatic fibrosis

(2010) Scott L. Friedman   Nature Reviews Gastroenterology & Hepatology

Senescence of Activated Stellate Cells Limits Liver Fibrosis

(2008) Valery Krizhanovsky et al.   CELL

Mesenchymal origin of hepatic stellate cells, submesothelial cells, and perivascular mesenchymal cells during mouse liver development

(2008) Kinji Asahina et al.   HEPATOLOGY

Epicardial progenitors contribute to the cardiomyocyte lineage in the developing heart

(2008) Bin Zhou et al.   NATURE

Mesothelium contributes to vascular smooth muscle and mesenchyme during lung development

(2008) J. Que et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA