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Endoglin in human liver disease and murine models of liver fibrosis—A protective factor against liver fibrosis
Author(s) -
Alsamman Muhammad,
Sterzer Viktor,
Meurer Steffen K.,
Sahin Hacer,
Schaeper Ute,
Kuscuoglu Deniz,
Strnad Pavel,
Weiskirchen Ralf,
Trautwein Christian,
Scholten David
Publication year - 2018
Publication title -
liver international
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.873
H-Index - 110
eISSN - 1478-3231
pISSN - 1478-3223
DOI - 10.1111/liv.13595
Subject(s) - sirius red , endoglin , hepatic stellate cell , liver injury , fibrosis , pathology , chronic liver disease , downregulation and upregulation , biology , medicine , endocrinology , cirrhosis , stem cell , microbiology and biotechnology , biochemistry , cd34 , gene
Abstract Background & Aims Liver fibrosis is the outcome of chronic liver injury. Transforming growth factor‐β ( TGF ‐β) is a major profibrogenic cytokine modulating hepatic stellate cell ( HSC ) activation and extracellular matrix homeostasis. This study analyses the effect of Endoglin (Eng), a TGF ‐β type III auxiliary receptor, on fibrogenesis in two models of liver injury by HSC ‐specific endoglin deletion. Methods Eng expression was measured in human and murine samples of liver injury. After generating GFAP Cre(+) Eng Δ HSC mice, the impact of Endoglin deletion on chronic liver fibrosis was analysed. For in vitro analysis, Eng flox/flox HSC s were infected with Cre‐expressing virus to deplete Endoglin and fibrogenic responses were analysed. Results Endoglin is upregulated in human liver injury. The receptor is expressed in liver tissues and mesenchymal liver cells with much higher abundance of the L‐Eng splice variant. Comparing GFAP C re(−) Eng f/f to GFAP C re(+) Eng Δ HSC mice in toxic liver injury, livers of GFAP C re(+) Eng Δ HSC mice showed 39.9% ( P < .01) higher Hydroxyproline content compared to GFAP C re(−) Eng f/f littermates. Sirius Red staining underlined these findings, showing 58.8% ( P < .05) more Collagen deposition in livers of GFAP C re(+) Eng Δ HSC mice. Similar results were obtained in mice subjected to cholestatic injury. Conclusion Endoglin isoforms are differentially upregulated in liver samples of patients with chronic and acute liver injury. Endoglin deficiency in HSC significantly aggravates fibrosis in response to injury in two different murine models of liver fibrosis and increases α‐ SMA and fibronectin expression in vitro. This suggests that Endoglin protects against fibrotic injury, likely through modulation of TGF ‐β signalling.