(HEPATOLOGY 2011;) Liver cirrhosis is associated with variable ch

(HEPATOLOGY 2011;) Liver cirrhosis is associated with variable changes in architecture of both matrix and vasculature within the sinusoidal tree. Matrix changes are characterized by increased deposition of fibronectin, collagen I, and other fibrillar proteins. Concomitant vascular changes primarily include sinusoidal vasoconstriction, angiogenesis, and pathological remodeling of sinusoids typified by increased mural cell coverage and vigorous wrapping by hepatic stellate cells (HSCs) around liver endothelial cells (LECs).1-3

These vascular changes disrupt integrity and homeostasis of sinusoidal function and, in concert with matrix changes, lead to portal Torin 1 hypertension and its clinical complications. Sorafenib is a multikinase inhibitor compound recently approved for use in humans with liver cancer.4 Its recent introduction to the clinic has fueled a plethora of studies aimed at understanding not only

its therapeutic potential, but also possible mechanisms underlying beneficial roles of this drug. In addition to its better-known effects on epithelial cancer cell proliferation,5 LDE225 sorafenib also regulates receptor tyrosine kinase pathways in adjacent stromal cells, including myofibroblasts and endothelial cells.6 Although the inhibitory effects of sorafenib on these nonparenchymal cell types are less characterized, they are nonetheless likely to significantly contribute to antitumoral efficacy of this drug. Furthermore, because HSCs and LECs are integral to the development of matrix and vascular changes during liver fibrosis, characterizing effects and mechanisms of action of sorafenib in this disease process is of notable medical importance. Consequently, in the current study, we demonstrate that sorafenib improves liver fibrosis by acting, at least in part, through a novel mechanism that is triggered within HSCs and LECs. Our results report a pathway whereby angiopoietin-1 (Ang1) cooperates with fibronectin to regulate remodeling of sinusoids that accompanies liver fibrosis. We found that both Ang1 and fibronectin are regulated by platelet-derived growth factor (PDGF) signaling and are functionally

linked by a shared transcription factor; the zinc finger protein, Kruppel-like factor 6 Histamine H2 receptor (KLF6) . However, these cooperative Ang1 and fibronectin pathways are readily inhibited by sorafenib through distinct downstream molecular signals that are independent and dependent on Raf, respectively. Complementary in vivo studies revealed a role for these pathways in the process of increased liver stiffness and provide evidence that sorafenib restores sinusoidal homeostasis by limiting injury-induced matrix and angiogenic changes. Collectively, these findings are of significant importance for building the theoretical framework necessary to design new therapies to treat fibrosis in the liver and in other gastrointestinal organs susceptible to exuberant fibrogenic responses.

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