An integrated transcriptomic and meta-analysis of hepatoma cells reveals factors that influence susceptibility to HCV infection.

Hepatitis C virus (HCV) is a global problem. To better understand HCV infection researchers employ in vitro HCV cell-culture (HCVcc) systems that use Huh-7 derived hepatoma cells that are particularly permissive to HCV infection. A variety of hyper-permissive cells have been subcloned for this purpo...

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Main Authors: Jamie I MacPherson, Ben Sidders, Stefan Wieland, Jin Zhong, Paul Targett-Adams, Volker Lohmann, Perdita Backes, Oona Delpuech-Adams, Francis Chisari, Marilyn Lewis, Tanya Parkinson, David L Robertson
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-01-01
Series:PLoS ONE
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/22046242/pdf/?tool=EBI
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spelling doaj-edf278f29c554c29a9a20b69865ee1a62021-03-03T20:31:20ZengPublic Library of Science (PLoS)PLoS ONE1932-62032011-01-01610e2558410.1371/journal.pone.0025584An integrated transcriptomic and meta-analysis of hepatoma cells reveals factors that influence susceptibility to HCV infection.Jamie I MacPhersonBen SiddersStefan WielandJin ZhongPaul Targett-AdamsVolker LohmannPerdita BackesOona Delpuech-AdamsFrancis ChisariMarilyn LewisTanya ParkinsonDavid L RobertsonHepatitis C virus (HCV) is a global problem. To better understand HCV infection researchers employ in vitro HCV cell-culture (HCVcc) systems that use Huh-7 derived hepatoma cells that are particularly permissive to HCV infection. A variety of hyper-permissive cells have been subcloned for this purpose. In addition, subclones of Huh-7 which have evolved resistance to HCV are available. However, the mechanisms of susceptibility or resistance to infection among these cells have not been fully determined. In order to elucidate mechanisms by which hepatoma cells are susceptible or resistant to HCV infection we performed genome-wide expression analyses of six Huh-7 derived cell cultures that have different levels of permissiveness to infection. A great number of genes, representing a wide spectrum of functions are differentially expressed between cells. To focus our investigation, we identify host proteins from HCV replicase complexes, perform gene expression analysis of three HCV infected cells and conduct a detailed analysis of differentially expressed host factors by integrating a variety of data sources. Our results demonstrate that changes relating to susceptibility to HCV infection in hepatoma cells are linked to the innate immune response, secreted signal peptides and host factors that have a role in virus entry and replication. This work identifies both known and novel host factors that may influence HCV infection. Our findings build upon current knowledge of the complex interplay between HCV and the host cell, which could aid development of new antiviral strategies.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/22046242/pdf/?tool=EBI
collection DOAJ
language English
format Article
sources DOAJ
author Jamie I MacPherson
Ben Sidders
Stefan Wieland
Jin Zhong
Paul Targett-Adams
Volker Lohmann
Perdita Backes
Oona Delpuech-Adams
Francis Chisari
Marilyn Lewis
Tanya Parkinson
David L Robertson
spellingShingle Jamie I MacPherson
Ben Sidders
Stefan Wieland
Jin Zhong
Paul Targett-Adams
Volker Lohmann
Perdita Backes
Oona Delpuech-Adams
Francis Chisari
Marilyn Lewis
Tanya Parkinson
David L Robertson
An integrated transcriptomic and meta-analysis of hepatoma cells reveals factors that influence susceptibility to HCV infection.
PLoS ONE
author_facet Jamie I MacPherson
Ben Sidders
Stefan Wieland
Jin Zhong
Paul Targett-Adams
Volker Lohmann
Perdita Backes
Oona Delpuech-Adams
Francis Chisari
Marilyn Lewis
Tanya Parkinson
David L Robertson
author_sort Jamie I MacPherson
title An integrated transcriptomic and meta-analysis of hepatoma cells reveals factors that influence susceptibility to HCV infection.
title_short An integrated transcriptomic and meta-analysis of hepatoma cells reveals factors that influence susceptibility to HCV infection.
title_full An integrated transcriptomic and meta-analysis of hepatoma cells reveals factors that influence susceptibility to HCV infection.
title_fullStr An integrated transcriptomic and meta-analysis of hepatoma cells reveals factors that influence susceptibility to HCV infection.
title_full_unstemmed An integrated transcriptomic and meta-analysis of hepatoma cells reveals factors that influence susceptibility to HCV infection.
title_sort integrated transcriptomic and meta-analysis of hepatoma cells reveals factors that influence susceptibility to hcv infection.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2011-01-01
description Hepatitis C virus (HCV) is a global problem. To better understand HCV infection researchers employ in vitro HCV cell-culture (HCVcc) systems that use Huh-7 derived hepatoma cells that are particularly permissive to HCV infection. A variety of hyper-permissive cells have been subcloned for this purpose. In addition, subclones of Huh-7 which have evolved resistance to HCV are available. However, the mechanisms of susceptibility or resistance to infection among these cells have not been fully determined. In order to elucidate mechanisms by which hepatoma cells are susceptible or resistant to HCV infection we performed genome-wide expression analyses of six Huh-7 derived cell cultures that have different levels of permissiveness to infection. A great number of genes, representing a wide spectrum of functions are differentially expressed between cells. To focus our investigation, we identify host proteins from HCV replicase complexes, perform gene expression analysis of three HCV infected cells and conduct a detailed analysis of differentially expressed host factors by integrating a variety of data sources. Our results demonstrate that changes relating to susceptibility to HCV infection in hepatoma cells are linked to the innate immune response, secreted signal peptides and host factors that have a role in virus entry and replication. This work identifies both known and novel host factors that may influence HCV infection. Our findings build upon current knowledge of the complex interplay between HCV and the host cell, which could aid development of new antiviral strategies.
url https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/22046242/pdf/?tool=EBI
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