1.Hepatitis C virus-induced hepatocellular carcinoma.
Nicolas GOOSSENS ; Yujin HOSHIDA
Clinical and Molecular Hepatology 2015;21(2):105-114
Hepatitis C virus (HCV) is a leading etiology of hepatocellular carcinoma (HCC). The interaction of HCV with its human host is complex and multilayered; stemming in part from the fact that HCV is a RNA virus with no ability to integrate in the host's genome. Direct and indirect mechanisms of HCV-induced HCC include activation of multiple host pathways such as liver fibrogenic pathways, cellular and survival pathways, interaction with the immune and metabolic systems. Host factors also play a major role in HCV-induced HCC as evidenced by genomic studies identifying polymorphisms in immune, metabolic, and growth signaling systems associated with increased risk of HCC. Despite highly effective direct-acting antiviral agents, the morbidity and incidence of liver-related complications of HCV, including HCC, is likely to persist in the near future. Clinical markers to selectively identify HCV subjects at higher risk of developing HCC have been reported however they require further validation, especially in subjects who have experienced sustained virological response. Molecular biomarkers allowing further refinement of HCC risk are starting to be implemented in clinical platforms, allowing objective stratification of risk and leading to individualized therapy and surveillance for HCV individuals. Another role for molecular biomarker-based stratification could be enrichment of HCC chemoprevention clinical trials leading to smaller sample size, shorter trial duration, and reduced costs.
Biomarkers, Tumor/genetics/metabolism
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Carcinoma, Hepatocellular/*etiology
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Hepacivirus/genetics/*pathogenicity
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Hepatitis C/complications/pathology/virology
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Humans
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Liver Neoplasms/*etiology
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Risk
2.Integrin alpha 11 in the regulation of the myofibroblast phenotype: implications for fibrotic diseases.
Ruchi BANSAL ; Shigeki NAKAGAWA ; Saleh YAZDANI ; Joop VAN BAARLEN ; Anu VENKATESH ; Anna P KOH ; Won Min SONG ; Nicolas GOOSSENS ; Hideo WATANABE ; Mary B BEASLEY ; Charles A POWELL ; Gert STORM ; Naftali KAMINSKI ; Harry VAN GOOR ; Scott L FRIEDMAN ; Yujin HOSHIDA ; Jai PRAKASH
Experimental & Molecular Medicine 2017;49(11):e396-
Tissue fibrosis, characterized by excessive accumulation of aberrant extracellular matrix (ECM) produced by myofibroblasts, is a growing cause of mortality worldwide. Understanding the factors that induce myofibroblastic differentiation is paramount to prevent or reverse the fibrogenic process. Integrin-mediated interaction between the ECM and cytoskeleton promotes myofibroblast differentiation. In the present study, we explored the significance of integrin alpha 11 (ITGA11), the integrin alpha subunit that selectively binds to type I collagen during tissue fibrosis in the liver, lungs and kidneys. We showed that ITGA11 was co-localized with α-smooth muscle actin-positive myofibroblasts and was correlatively induced with increasing fibrogenesis in mouse models and human fibrotic organs. Furthermore, transcriptome and protein expression analysis revealed that ITGA11 knockdown in hepatic stellate cells (liver-specific myofibroblasts) markedly reduced transforming growth factor β-induced differentiation and fibrotic parameters. Moreover, ITGA11 knockdown dramatically altered the myofibroblast phenotype, as indicated by the loss of protrusions, attenuated adhesion and migration, and impaired contractility of collagen I matrices. Furthermore, we demonstrated that ITGA11 was regulated by the hedgehog signaling pathway, and inhibition of the hedgehog pathway reduced ITGA11 expression and fibrotic parameters in human hepatic stellate cells in vitro, in liver fibrosis mouse model in vivo and in human liver slices ex vivo. Therefore, we speculated that ITGA11 might be involved in fibrogenic signaling and might act downstream of the hedgehog signaling pathway. These findings highlight the significance of the ITGA11 receptor as a highly promising therapeutic target in organ fibrosis.
Animals
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Collagen
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Collagen Type I
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Cytoskeleton
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Extracellular Matrix
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Fibrosis
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Hedgehogs
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Hepatic Stellate Cells
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Humans
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In Vitro Techniques
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Kidney
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Liver
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Liver Cirrhosis
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Lung
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Mice
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Mortality
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Myofibroblasts*
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Phenotype*
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Transcriptome
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Transforming Growth Factors