C. Di Giacomo scite author profile

Hepatic fat export occurs by apolipoprotein B-100-containing lipoprotein production, whereas impaired production leads to liver steatosis. Hepatitis C virus (HCV) infection is associated to dysregulation of apoB-100 secretion and steatosis; however, the molecular mechanism by which HCV affects the apoB-100 secretion is not understood. Here, combining quantitative proteomics and computational biology, we propose ferritin heavy chain (Fth) as being the cellular determinant of apoB-100 production inhibition. By means of molecular analyses, we found that HCV nonstructural proteins and NS5A appear to be sufficient for inducing Fth up-regulation. Fth in turn was found to inhibit apoB-100 secretion leading to increased intracellular degradation via proteasome. Notably, intracellular Fth down-regulation by siRNA restores apoB-100 secretion. The inverse correlation between ferritin and plasma apoB-100 concentrations was also found in JFH-1 HCV cell culture systems (HCVcc) and HCV-infected patients. Finally, Fth expression was found to be required for robust HCV infection. These observations provide a further molecular explanation for the onset of liver steatosis and allow for hypothesizing on new therapeutic and antiviral strategies.

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High urine IP-10 levels associate with chronic HCV infection

Petrone

Chiacchio

Vanini

et al. 2014

Journal of Infection

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C. Di Giacomo

Patterns of hepatitis delta virus reinfection and disease in liver transplantation

Hepatitis C virus production requires apolipoprotein A-I and affects its association with nascent low-density lipoproteins

Ferritin Heavy Chain Is the Host Factor Responsible for HCV-Induced Inhibition of apoB-100 Production and Is Required for Efficient Viral Infection

High urine IP-10 levels associate with chronic HCV infection

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