Natural non-homologous recombination led to the emergence of a duplicated V3-NS5A region in HCV-1b strains associated with hepatocellular carcinoma.

Natural non-homologous recombination led to the emergence of a duplicated V3-NS5A region in HCV-1b strains associated with hepatocellular carcinoma.

BACKGROUND:The emergence of new strains in RNA viruses is mainly due to mutations or intra and inter-genotype homologous recombination. Non-homologous recombinations may be deleterious and are rarely detected. In previous studies, we identified HCV-1b strains bearing two tandemly repeated V3 regions...

Full description

Bibliographic Details
Main Authors: Hélène Le Guillou-Guillemette, Adeline Pivert, Elise Bouthry, Cécile Henquell, Odile Petsaris, Alexandra Ducancelle, Pascal Veillon, Sophie Vallet, Sophie Alain, Vincent Thibault, Florence Abravanel, Arielle A Rosenberg, Elisabeth André-Garnier, Jean-Baptiste Bour, Yazid Baazia, Pascale Trimoulet, Patrice André, Catherine Gaudy-Graffin, Dominique Bettinger, Sylvie Larrat, Anne Signori-Schmuck, Hénia Saoudin, Bruno Pozzetto, Gisèle Lagathu, Sophie Minjolle-Cha, Françoise Stoll-Keller, Jean-Michel Pawlotsky, Jacques Izopet, Christopher Payan, Françoise Lunel-Fabiani, Christophe Lemaire
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2017-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5386276?pdf=render
id doaj-3345e59bdd8a4843af957f74db745733
record_format Article
spelling doaj-3345e59bdd8a4843af957f74db7457332020-11-25T00:48:20ZengPublic Library of Science (PLoS)PLoS ONE1932-62032017-01-01124e017465110.1371/journal.pone.0174651Natural non-homologous recombination led to the emergence of a duplicated V3-NS5A region in HCV-1b strains associated with hepatocellular carcinoma.Hélène Le Guillou-GuillemetteAdeline PivertElise BouthryCécile HenquellOdile PetsarisAlexandra DucancellePascal VeillonSophie ValletSophie AlainVincent ThibaultFlorence AbravanelArielle A RosenbergElisabeth André-GarnierJean-Baptiste BourYazid BaaziaPascale TrimouletPatrice AndréCatherine Gaudy-GraffinDominique BettingerSylvie LarratAnne Signori-SchmuckHénia SaoudinBruno PozzettoGisèle LagathuSophie Minjolle-ChaFrançoise Stoll-KellerJean-Michel PawlotskyJacques IzopetChristopher PayanFrançoise Lunel-FabianiChristophe LemaireBACKGROUND:The emergence of new strains in RNA viruses is mainly due to mutations or intra and inter-genotype homologous recombination. Non-homologous recombinations may be deleterious and are rarely detected. In previous studies, we identified HCV-1b strains bearing two tandemly repeated V3 regions in the NS5A gene without ORF disruption. This polymorphism may be associated with an unfavorable course of liver disease and possibly involved in liver carcinogenesis. Here we aimed at characterizing the origin of these mutant strains and identifying the evolutionary mechanism on which the V3 duplication relies. METHODS:Direct sequencing of the entire NS5A and E1 genes was performed on 27 mutant strains. Quasispecies analyses in consecutive samples were also performed by cloning and sequencing the NS5A gene for all mutant and wild strains. We analyzed the mutant and wild-type sequence polymorphisms using Bayesian methods to infer the evolutionary history of and the molecular mechanism leading to the duplication-like event. RESULTS:Quasispecies were entirely composed of exclusively mutant or wild-type strains respectively. Mutant quasispecies were found to have been present since contamination and had persisted for at least 10 years. This V3 duplication-like event appears to have resulted from non-homologous recombination between HCV-1b wild-type strains around 100 years ago. The association between increased liver disease severity and these HCV-1b mutants may explain their persistence in chronically infected patients. CONCLUSIONS:These results emphasize the possible consequences of non-homologous recombination in the emergence and severity of new viral diseases.http://europepmc.org/articles/PMC5386276?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Hélène Le Guillou-Guillemette
Adeline Pivert
Elise Bouthry
Cécile Henquell
Odile Petsaris
Alexandra Ducancelle
Pascal Veillon
Sophie Vallet
Sophie Alain
Vincent Thibault
Florence Abravanel
Arielle A Rosenberg
Elisabeth André-Garnier
Jean-Baptiste Bour
Yazid Baazia
Pascale Trimoulet
Patrice André
Catherine Gaudy-Graffin
Dominique Bettinger
Sylvie Larrat
Anne Signori-Schmuck
Hénia Saoudin
Bruno Pozzetto
Gisèle Lagathu
Sophie Minjolle-Cha
Françoise Stoll-Keller
Jean-Michel Pawlotsky
Jacques Izopet
Christopher Payan
Françoise Lunel-Fabiani
Christophe Lemaire
spellingShingle Hélène Le Guillou-Guillemette
Adeline Pivert
Elise Bouthry
Cécile Henquell
Odile Petsaris
Alexandra Ducancelle
Pascal Veillon
Sophie Vallet
Sophie Alain
Vincent Thibault
Florence Abravanel
Arielle A Rosenberg
Elisabeth André-Garnier
Jean-Baptiste Bour
Yazid Baazia
Pascale Trimoulet
Patrice André
Catherine Gaudy-Graffin
Dominique Bettinger
Sylvie Larrat
Anne Signori-Schmuck
Hénia Saoudin
Bruno Pozzetto
Gisèle Lagathu
Sophie Minjolle-Cha
Françoise Stoll-Keller
Jean-Michel Pawlotsky
Jacques Izopet
Christopher Payan
Françoise Lunel-Fabiani
Christophe Lemaire
Natural non-homologous recombination led to the emergence of a duplicated V3-NS5A region in HCV-1b strains associated with hepatocellular carcinoma.
PLoS ONE
author_facet Hélène Le Guillou-Guillemette
Adeline Pivert
Elise Bouthry
Cécile Henquell
Odile Petsaris
Alexandra Ducancelle
Pascal Veillon
Sophie Vallet
Sophie Alain
Vincent Thibault
Florence Abravanel
Arielle A Rosenberg
Elisabeth André-Garnier
Jean-Baptiste Bour
Yazid Baazia
Pascale Trimoulet
Patrice André
Catherine Gaudy-Graffin
Dominique Bettinger
Sylvie Larrat
Anne Signori-Schmuck
Hénia Saoudin
Bruno Pozzetto
Gisèle Lagathu
Sophie Minjolle-Cha
Françoise Stoll-Keller
Jean-Michel Pawlotsky
Jacques Izopet
Christopher Payan
Françoise Lunel-Fabiani
Christophe Lemaire
author_sort Hélène Le Guillou-Guillemette
title Natural non-homologous recombination led to the emergence of a duplicated V3-NS5A region in HCV-1b strains associated with hepatocellular carcinoma.
title_short Natural non-homologous recombination led to the emergence of a duplicated V3-NS5A region in HCV-1b strains associated with hepatocellular carcinoma.
title_full Natural non-homologous recombination led to the emergence of a duplicated V3-NS5A region in HCV-1b strains associated with hepatocellular carcinoma.
title_fullStr Natural non-homologous recombination led to the emergence of a duplicated V3-NS5A region in HCV-1b strains associated with hepatocellular carcinoma.
title_full_unstemmed Natural non-homologous recombination led to the emergence of a duplicated V3-NS5A region in HCV-1b strains associated with hepatocellular carcinoma.
title_sort natural non-homologous recombination led to the emergence of a duplicated v3-ns5a region in hcv-1b strains associated with hepatocellular carcinoma.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2017-01-01
description BACKGROUND:The emergence of new strains in RNA viruses is mainly due to mutations or intra and inter-genotype homologous recombination. Non-homologous recombinations may be deleterious and are rarely detected. In previous studies, we identified HCV-1b strains bearing two tandemly repeated V3 regions in the NS5A gene without ORF disruption. This polymorphism may be associated with an unfavorable course of liver disease and possibly involved in liver carcinogenesis. Here we aimed at characterizing the origin of these mutant strains and identifying the evolutionary mechanism on which the V3 duplication relies. METHODS:Direct sequencing of the entire NS5A and E1 genes was performed on 27 mutant strains. Quasispecies analyses in consecutive samples were also performed by cloning and sequencing the NS5A gene for all mutant and wild strains. We analyzed the mutant and wild-type sequence polymorphisms using Bayesian methods to infer the evolutionary history of and the molecular mechanism leading to the duplication-like event. RESULTS:Quasispecies were entirely composed of exclusively mutant or wild-type strains respectively. Mutant quasispecies were found to have been present since contamination and had persisted for at least 10 years. This V3 duplication-like event appears to have resulted from non-homologous recombination between HCV-1b wild-type strains around 100 years ago. The association between increased liver disease severity and these HCV-1b mutants may explain their persistence in chronically infected patients. CONCLUSIONS:These results emphasize the possible consequences of non-homologous recombination in the emergence and severity of new viral diseases.
url http://europepmc.org/articles/PMC5386276?pdf=render
work_keys_str_mv AT heleneleguillouguillemette naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT adelinepivert naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT elisebouthry naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT cecilehenquell naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT odilepetsaris naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT alexandraducancelle naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT pascalveillon naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT sophievallet naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT sophiealain naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT vincentthibault naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT florenceabravanel naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT ariellearosenberg naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT elisabethandregarnier naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT jeanbaptistebour naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT yazidbaazia naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT pascaletrimoulet naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT patriceandre naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT catherinegaudygraffin naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT dominiquebettinger naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT sylvielarrat naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT annesignorischmuck naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT heniasaoudin naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT brunopozzetto naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT giselelagathu naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT sophieminjollecha naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT francoisestollkeller naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT jeanmichelpawlotsky naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT jacquesizopet naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT christopherpayan naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT francoiselunelfabiani naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
AT christophelemaire naturalnonhomologousrecombinationledtotheemergenceofaduplicatedv3ns5aregioninhcv1bstrainsassociatedwithhepatocellularcarcinoma
_version_ 1725256500502331392

Similar Items