Nonalcoholic steatohepatitis (NASH) is a progressive fibrotic disease, the pathogenesis of which has not been fully elucidated. Here, we report a molecular aspect of this disease elucidated using rabbits fed a cholesterol-rich high-fat diet and exhibiting insulin resistance. The liver in this model showed steatohepatitis with fibrosis and high mRNA expression for some cytokines, heme oxygenase-1, transforming growth factor-beta1, and collagen alpha1(I). Erythrocytes isolated from the model showed marked fragility and the externalization of phosphatidylserine (PS) on the outer leaflet of the membrane and were frequently engulfed by Kupffer cells/macrophages in the hepatic sinusoids. Expression of milk fat globule-epidermal growth factor (EGF)-factor 8, a PS-binding protein, was augmented in the liver. In culture, RAW 264.7 cells engulfed erythrocytes oxidized by tert-butyl hydroperoxide, a process that was inhibited by anti-milk fat globule-EGF-factor 8 antibody. In addition, PS-positive erythrocytes appeared entrapped in the model liver in ex vivo perfusion experiments. Finally, in specimens from NASH patients, the aggregation of erythrocytes in inflammatory hepatic sinusoids was notable. These results indicate that the engulfment of PS-externalized, apoptotic signal-positive, erythrocytes by hepatic macrophages may lead to the deposition of iron derived from hemoglobin in the liver and be involved in the pathogenesis of steatohepatitis.
Background: Liver cirrhosis, which is caused by the accumulation of extracellular matrix materials, is a serious clinical problem that can progress to hepatic failure. Transforming growth factor-b (TGFb) plays a pivotal role in extracellular matrix production, but bone morphogenetic protein (BMP)-7, a member of the TGFb superfamily, can antagonise the fibrogenic activity of TGFb. Aim: In this study, we examined whether adenovirus-mediated overexpression of BMP-7 (Ad-BMP-7) antagonised the effect of TGFb in vitro and in vivo. Methods and results: In primary cultured rat stellate cells and the LX-2 human stellate cell line, induction of BMP-7 by Ad-BMP-7 infection decreased the expression of collagen 1A2 mRNA and smooth muscle a-actin in the presence or absence of TGFb, via Smad 1/5/8 phosphorylation. BMP-7 triggered the mRNA expression of inhibitors of differentiation 2 (Id2) in LX-2. Although endogenous expression of BMP-7 was hardly detectable, Smad1 and Id2 overexpression increased BMP-7 expression in LX-2. A liver fibrosis model was induced by the repetitive intraperitoneal injection of thioacetamide (200 mg/kg body weight) twice per week for up to 7 weeks. In rats administered Ad-BMP-7 via the tail vein, hydroxyproline content and the areas stained by Sirius red dye in the liver were significantly reduced compared to controls. Ad-Id2 also reduced fibrosis.Conclusion: These data demonstrate that BMP-7, Smad 1/5/8 and Ids interact to antagonise hepatic fibrogenesis.
Oxidative stress due to iron deposition in hepatocytes or Kupffer cells contributes to the initiation and perpetuation of liver injury. The aim of this study was to clarify the association between dietary iron and liver injuries in rats. Liver injury was initiated by the administration of thioacetamide or ligation of the common bile duct in rats fed a control diet (CD) or iron-deficient diet (ID). In the acute liver injury model induced by thioacetamide, serum levels of aspartate aminotransferase and alanine aminotransferase, as well as hepatic levels of lipid peroxide and 4-hydroxynonenal, were significantly decreased in the ID group. The expression of 8-hydroxydeoxyguanosine and terminal deoxynucleotidyl transferase biotin-dUTP nick-end labeling positivity showed a similar tendency. The expression of interleukin-1beta and monocyte chemotactic protein-1 mRNA was suppressed in the ID group. In liver fibrosis induced by an 8-wk thioacetamide administration, ID suppressed collagen deposition and smooth muscle alpha-actin expression. The expressions of collagen 1A2, transforming growth factor beta, and platelet-derived growth factor receptor beta mRNA were all significantly decreased in the ID group. Liver fibrosis was additionally suppressed in the bile-duct ligation model by ID. In culture experiments, deferoxamine attenuated the activation process of rat hepatic stellate cells, a dominant producer of collagen in the liver. In conclusion, reduced dietary iron is considered to be beneficial in improving acute and chronic liver injuries by reducing oxidative stress. The results obtained in this study support the clinical usefulness of an iron-reduced diet for the improvement of liver disorders induced by chronic hepatitis C and alcoholic/nonalcoholic steatohepatitis.
The activation of hepatic stellate cells (HSCs) is a cue to initiate liver fibrosis. Activated stellate cells acquire contractile activity similar to pericytes and myofibroblasts in other organs by inducing the contractile machinery of cytoskeletons such as smooth muscle alpha-actin (alpha-SMA), a well-known marker of activated stellate cells, and actin-binding proteins. We further show herein the expression of tropomyosin in rat HSCs in the course of their activation during primary culture and liver tissue damaged by thioacetamide intoxication. In immunoblot analysis, tropomyosin became detectable in an early stage of the primary culture of rat stellate cells in a manner similar to the expression of alpha-SMA and platelet-derived growth factor receptor-beta. Tropomyosin was found to be colocalized with alpha-SMA on fluorescent immunocytochemistry. At the liver tissue level, an increased expression of tropomyosin was observed by immunoblot analysis and immunohistochemistry along the septum of fibrosis, where alpha-SMA was enriched. These results strongly suggest that tropomyosin is a new marker of activated stellate cells and may serve as a useful diagnostic marker of liver fibrosis.
Although non-alcoholic steatohepatitis (NASH) has become a common disease worldwide, its pathogenesis remains unclear. Establishment of a proper animal model is a prerequisite for analyzing the molecular mechanism of this disease. A NASH model has been developed using rabbits fed a high-fat diet. These rabbits developed prominent fatty changes in hepatocytes. Hepatic fibrosis was seen around hepatocytes and the portal vein area. Apoptotic hepatocytes, which were rare in the intact liver, appeared in the liver of high-fat diet-fed rabbits. It is speculated that Kupffer cells/macrophages may play an important role in triggering the generation of oxidative stress in this model. Thus, this rabbit model is proposed for use in the molecular analysis of human NASH.
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