Gemma Pérez-Vilaró1, Carlos Fernández-Carrillo2, Laura Mensa2, Rosa Miquel3, Xavier Sanjuan4, Xavier Forns2, Sofía Pérez-del-Pulgar5, Juana Díez6. 1. Molecular Virology, Universitat Pompeu Fabra, Barcelona, Spain. 2. Liver Unit, Hospital Clínic, IDIBAPS, CIBERehd, Barcelona, Spain. 3. Pathology Department, Hospital Clínic, Barcelona, Spain. 4. Scientific and Technical Services, Universitat Pompeu Fabra, Barcelona, Spain; Advanced Light Microscopy Unit, Center for Genomic Regulation, Barcelona, Spain. 5. Liver Unit, Hospital Clínic, IDIBAPS, CIBERehd, Barcelona, Spain. Electronic address: sofiapp@clinic.ub.es. 6. Molecular Virology, Universitat Pompeu Fabra, Barcelona, Spain. Electronic address: juana.diez@upf.edu.
Abstract
BACKGROUND & AIMS: Decoding the myriad of interactions that hepatitis C virus (HCV) establishes with infected cells is mandatory to obtain a complete understanding of HCV biology and its associated pathogenesis. We and others have previously found that HCV infection disrupts the formation of P-bodies in cell culture. These are cytoplasmic RNA granules with key roles in post-transcriptional regulation of gene expression. Therefore, P-body disruption might have consequences beyond viral propagation. However, whether P-body disruption occurs also in vivo is unknown. Aim of this study was to address this important issue. METHODS: Formalin-fixed paraffin-embedded liver biopsies from four groups of patients (healthy donors, patients with non-virus related liver inflammation, HCV- and HBV-infected patients) were immunostained to detect DDX6 and Dcp1, two core P-body components. Changes in the localization of these proteins were assessed by confocal microscopy. RESULTS: HCV specifically inhibited P-body formation in hepatocytes from human livers regardless of viral genotype, inflammation grade or whether the infection was recent or long established. Importantly, this alteration was reversed once HCV was eliminated by therapy. Furthermore, we observed in vivo an unexpected heterogeneity in P-body composition, which might reflect functional specializations. CONCLUSIONS: This is the first comprehensive in vivo P-body analysis that links a pathogenic condition to P-body alterations. Because of their role in gene expression, the alteration of P-bodies should be further studied to understand fully complex HCV-associated pathologies.
BACKGROUND & AIMS: Decoding the myriad of interactions that hepatitis C virus (HCV) establishes with infected cells is mandatory to obtain a complete understanding of HCV biology and its associated pathogenesis. We and others have previously found that HCV infection disrupts the formation of P-bodies in cell culture. These are cytoplasmic RNA granules with key roles in post-transcriptional regulation of gene expression. Therefore, P-body disruption might have consequences beyond viral propagation. However, whether P-body disruption occurs also in vivo is unknown. Aim of this study was to address this important issue. METHODS:Formalin-fixed paraffin-embedded liver biopsies from four groups of patients (healthy donors, patients with non-virus related liver inflammation, HCV- and HBV-infectedpatients) were immunostained to detect DDX6 and Dcp1, two core P-body components. Changes in the localization of these proteins were assessed by confocal microscopy. RESULTS:HCV specifically inhibited P-body formation in hepatocytes from human livers regardless of viral genotype, inflammation grade or whether the infection was recent or long established. Importantly, this alteration was reversed once HCV was eliminated by therapy. Furthermore, we observed in vivo an unexpected heterogeneity in P-body composition, which might reflect functional specializations. CONCLUSIONS: This is the first comprehensive in vivo P-body analysis that links a pathogenic condition to P-body alterations. Because of their role in gene expression, the alteration of P-bodies should be further studied to understand fully complex HCV-associated pathologies.
Authors: Benjamin Petre; Diane G O Saunders; Jan Sklenar; Cécile Lorrain; Ksenia V Krasileva; Joe Win; Sébastien Duplessis; Sophien Kamoun Journal: PLoS One Date: 2016-02-10 Impact factor: 3.240
Authors: Corey A Balinsky; Hana Schmeisser; Alexandra I Wells; Sundar Ganesan; Tengchuan Jin; Kavita Singh; Kathryn C Zoon Journal: J Virol Date: 2017-02-14 Impact factor: 5.103