The role of osteopontin and tumor necrosis factor alpha receptor-1 in xenobiotic-induced cholangitis and biliary fibrosis in mice

Fickert, Peter; Thueringer, Andrea; Moustafa, Tarek; Silbert, Dagmar; Gumhold, J.; Tsybrovskyy, Oleksiy; Lebofsky, Margitta; Jaeschke, Hartmut; Denk, Helmut; Trauner, Michael

doi:10.1038/labinvest.2010.61

Cited by 38 publications

(37 citation statements)

References 52 publications

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“…Work by Fickert et al 43 suggested that genetic loss of Opn in mice on C57BL/6J background only did not affect the pathogenesis of the 3,5-diethoxycarbonyl-1,4-dihydrocollidine model of sclerosing cholangitis and biliary-type liver fibrosis. Their conclusions were based solely on the presence of CK19 + cells as a readout for DR since no studies were performed to dissect how DR could regulate the profibrogenic potential of HSC and/or portal fibroblasts 43. Yet, the authors indicated that their experimental findings did not allow the direct conclusion that OPN has no role in biliary fibrosis induced under different experimental conditions.…”

Section: Discussionmentioning

confidence: 99%

“…In the past few years, several groups have studied the potential role of OPN induction in liver fibrosis albeit with conflicting results 17–19 42 43. Work by Fickert et al 43 suggested that genetic loss of Opn in mice on C57BL/6J background only did not affect the pathogenesis of the 3,5-diethoxycarbonyl-1,4-dihydrocollidine model of sclerosing cholangitis and biliary-type liver fibrosis. Their conclusions were based solely on the presence of CK19 + cells as a readout for DR since no studies were performed to dissect how DR could regulate the profibrogenic potential of HSC and/or portal fibroblasts 43.…”

Section: Discussionmentioning

confidence: 99%

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Osteopontin induces ductular reaction contributing to liver fibrosis

Wang

Lopategi

et al. 2014

Gut

106

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Osteopontin induces ductular reaction contributing to liver fibrosis

Wang

Lopategi

et al. 2014

Gut

106

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“…This type of progressive biliary injury is initially characterized by specific transporter abnormalities, involving canalicular expression of Sodium/Taurocholate Cotransporter (Ntcp), organic anion transporting polypeptide (Oatp4), and Multidrug Resistance-Associated Protein 2 (Mrp2), responsible for reduced biliary excretion of glutathione (GSH) and phospholipids, occurring before phenotypic changes of cholangiocytes (‘reactive cholangiocyte’) [19]. Reactive cholangiocytes show increased expression of profibrogenic and proinflammatory cytokines, including osteopontin and tumor necrosis factor-alpha (TNF-α), associated with infiltration of neutrophils, and then with activation of periductal myofibroblasts, around both large and small bile ducts [21]. Recent morphological evidence showed that DDC-induced liver injury also leads to hepatocellular necrosis and, consequently, activation of Kupffer cells and compensatory hepatocyte proliferation [22–24].…”

Section: 35-diethoxycarbonyl-14-dihydrocollidine (Ddc)mentioning

confidence: 99%

Animal models of biliary injury and altered bile acid metabolism

Mariotti

Strazzabosco

Fabris

et al. 2018

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

127

102

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In the last 25 years, a number of animal models, mainly rodents, have been generated with the goal to mimic cholestatic liver injuries and, thus, to provide in vivo tools to investigate the mechanisms of biliary repair and, eventually, to test the efficacy of innovative treatments. Despite fundamental limitations applying to these models, such as the distinct immune system and the different metabolism regulating liver homeostasis in rodents when compared to humans, multiple approaches, such as surgery (bile duct ligation), chemical-induced (3,5-diethoxycarbonyl-1,4-dihydrocollidine, DDC, α-naphthylisothiocyanate, ANIT), viral infections (Rhesus rotavirustype A, RRV-A), and genetic manipulation (Mdr2, Cftr, Pkd1, Pkd2, Prkcsh, Sec63, Pkhd1) have been developed. Overall, they have led to a range of liver phenotypes recapitulating the main features of biliary injury and altered bile acid metabolisms, such as ductular reaction, peribiliary inflammation and fibrosis, obstructive cholestasis and biliary dysgenesis. Although with a limited translability to the human setting, these mouse models have provided us with the ability to probe over time the fundamental mechanisms promoting cholestatic disease progression. Moreover, recent studies from genetically engineered mice have unveiled ‘core’ pathways that make the cholangiocyte a pivotal player in liver repair. In this review, we will highlight the main phenotypic features, the more interesting peculiarities and the different drawbacks of these mouse models.

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“…1C), onionskin-type periductal fibrosis, and finally biliary fibrosis, therewith reflecting several specific pathological hallmarks of human PSC (42). This model is therefore especially useful to investigate the mechanisms of chronic cholangiopathies and their consequences, including biliary fibrosis, and to test novel therapeutic approaches for these diseases (42,43).…”

Section: Animal Models Of Pscmentioning

confidence: 99%

Animal models of chronic liver diseases

Liu

Meyer

et al. 2013

American Journal of Physiology-Gastrointestinal and Liver Physi

191

154

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Chronic liver diseases are frequent and potentially life threatening for humans. The underlying etiologies are diverse, ranging from viral infections, autoimmune disorders, and intoxications (including alcohol abuse) to imbalanced diets. Although at early stages of disease the liver regenerates in the absence of the insult, advanced stages cannot be healed and may require organ transplantation. A better understanding of underlying mechanisms is mandatory for the design of new drugs to be used in clinic. Therefore, rodent models are being developed to mimic human liver disease. However, no model to date can completely recapitulate the “corresponding” human disorder. Limiting factors are the time frame required in humans to establish a certain liver disease and the fact that rodents possess a distinct immune system compared with humans and have different metabolic rates affecting liver homeostasis. These features account for the difficulties in developing adequate rodent models for studying disease progression and for testing new pharmaceuticals to be translated into the clinic. Nevertheless, traditional and new promising animal models that mimic certain attributes of chronic liver diseases are established and being used to deepen our understanding in the underlying mechanisms of distinct liver diseases. This review aims at providing a comprehensive overview of recent advances in animal models recapitulating different features and etiologies of human liver diseases.

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The role of osteopontin and tumor necrosis factor alpha receptor-1 in xenobiotic-induced cholangitis and biliary fibrosis in mice

Cited by 38 publications

References 52 publications

Osteopontin induces ductular reaction contributing to liver fibrosis

Osteopontin induces ductular reaction contributing to liver fibrosis

Animal models of biliary injury and altered bile acid metabolism

Animal models of chronic liver diseases

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