A Cooperative Interaction between Nontranslated RNA Sequences and NS5A Protein Promotes In Vivo Fitness of a Chimeric Hepatitis C/GB Virus B

GB virus B (GBV-B) is closely related to hepatitis C virus (HCV), infects small non-human primates, and is thus a valuable surrogate for studying HCV. Despite significant differences, the 5′ nontranslated RNAs (NTRs) of these viruses fold into four similar structured domains (I-IV), with domains II-...

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Autores principales: Warter, Lucile, Cohen, Lisette, Benureau, Yann, Chavez, Deborah, Yang, Yan, Bodola, Francis, Lemon, Stanley M., Traboni, Cinzia, Lanford, Robert E., Martin, Annette
Formato: Texto
Lenguaje:English
Publicado: Public Library of Science 2009
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2635954/
https://www.ncbi.nlm.nih.gov/pubmed/19204793
http://dx.doi.org/10.1371/journal.pone.0004419
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author Warter, Lucile
Cohen, Lisette
Benureau, Yann
Chavez, Deborah
Yang, Yan
Bodola, Francis
Lemon, Stanley M.
Traboni, Cinzia
Lanford, Robert E.
Martin, Annette
author_facet Warter, Lucile
Cohen, Lisette
Benureau, Yann
Chavez, Deborah
Yang, Yan
Bodola, Francis
Lemon, Stanley M.
Traboni, Cinzia
Lanford, Robert E.
Martin, Annette
author_sort Warter, Lucile
collection PubMed
description GB virus B (GBV-B) is closely related to hepatitis C virus (HCV), infects small non-human primates, and is thus a valuable surrogate for studying HCV. Despite significant differences, the 5′ nontranslated RNAs (NTRs) of these viruses fold into four similar structured domains (I-IV), with domains II-III-IV comprising the viral internal ribosomal entry site (IRES). We previously reported the in vivo rescue of a chimeric GBV-B (vGB/III(HC)) containing HCV sequence in domain III, an essential segment of the IRES. We show here that three mutations identified within the vGB/III(HC) genome (within the 3′NTR, upstream of the poly(U) tract, and NS5A coding sequence) are necessary and sufficient for production of this chimeric virus following intrahepatic inoculation of synthetic RNA in tamarins, and thus apparently compensate for the presence of HCV sequence in domain III. To assess the mechanism(s) underlying these compensatory mutations, and to determine whether 5′NTR subdomains participating in genome replication do so in a virus-specific fashion, we constructed and evaluated a series of chimeric subgenomic GBV-B replicons in which various 5′NTR subdomains were substituted with their HCV homologs. Domains I and II of the GBV-B 5′NTR could not be replaced with HCV sequence, indicating that they contain essential, virus-specific RNA replication elements. In contrast, domain III could be swapped with minimal loss of genome replication capacity in cell culture. The 3′NTR and NS5A mutations required for rescue of the related chimeric virus in vivo had no effect on replication of the subgenomic GBneoD/III(HC) RNA in vitro. The data suggest that in vivo fitness of the domain III chimeric virus is dependent on a cooperative interaction between the 5′NTR, 3′NTR and NS5A at a step in the viral life cycle subsequent to genome replication, most likely during particle assembly. Such a mechanism may be common to all hepaciviruses.
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spelling pubmed-26359542009-02-10 A Cooperative Interaction between Nontranslated RNA Sequences and NS5A Protein Promotes In Vivo Fitness of a Chimeric Hepatitis C/GB Virus B Warter, Lucile Cohen, Lisette Benureau, Yann Chavez, Deborah Yang, Yan Bodola, Francis Lemon, Stanley M. Traboni, Cinzia Lanford, Robert E. Martin, Annette PLoS One Research Article GB virus B (GBV-B) is closely related to hepatitis C virus (HCV), infects small non-human primates, and is thus a valuable surrogate for studying HCV. Despite significant differences, the 5′ nontranslated RNAs (NTRs) of these viruses fold into four similar structured domains (I-IV), with domains II-III-IV comprising the viral internal ribosomal entry site (IRES). We previously reported the in vivo rescue of a chimeric GBV-B (vGB/III(HC)) containing HCV sequence in domain III, an essential segment of the IRES. We show here that three mutations identified within the vGB/III(HC) genome (within the 3′NTR, upstream of the poly(U) tract, and NS5A coding sequence) are necessary and sufficient for production of this chimeric virus following intrahepatic inoculation of synthetic RNA in tamarins, and thus apparently compensate for the presence of HCV sequence in domain III. To assess the mechanism(s) underlying these compensatory mutations, and to determine whether 5′NTR subdomains participating in genome replication do so in a virus-specific fashion, we constructed and evaluated a series of chimeric subgenomic GBV-B replicons in which various 5′NTR subdomains were substituted with their HCV homologs. Domains I and II of the GBV-B 5′NTR could not be replaced with HCV sequence, indicating that they contain essential, virus-specific RNA replication elements. In contrast, domain III could be swapped with minimal loss of genome replication capacity in cell culture. The 3′NTR and NS5A mutations required for rescue of the related chimeric virus in vivo had no effect on replication of the subgenomic GBneoD/III(HC) RNA in vitro. The data suggest that in vivo fitness of the domain III chimeric virus is dependent on a cooperative interaction between the 5′NTR, 3′NTR and NS5A at a step in the viral life cycle subsequent to genome replication, most likely during particle assembly. Such a mechanism may be common to all hepaciviruses. Public Library of Science 2009-02-10 /pmc/articles/PMC2635954/ /pubmed/19204793 http://dx.doi.org/10.1371/journal.pone.0004419 Text en Warter et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Warter, Lucile
Cohen, Lisette
Benureau, Yann
Chavez, Deborah
Yang, Yan
Bodola, Francis
Lemon, Stanley M.
Traboni, Cinzia
Lanford, Robert E.
Martin, Annette
A Cooperative Interaction between Nontranslated RNA Sequences and NS5A Protein Promotes In Vivo Fitness of a Chimeric Hepatitis C/GB Virus B
title A Cooperative Interaction between Nontranslated RNA Sequences and NS5A Protein Promotes In Vivo Fitness of a Chimeric Hepatitis C/GB Virus B
title_full A Cooperative Interaction between Nontranslated RNA Sequences and NS5A Protein Promotes In Vivo Fitness of a Chimeric Hepatitis C/GB Virus B
title_fullStr A Cooperative Interaction between Nontranslated RNA Sequences and NS5A Protein Promotes In Vivo Fitness of a Chimeric Hepatitis C/GB Virus B
title_full_unstemmed A Cooperative Interaction between Nontranslated RNA Sequences and NS5A Protein Promotes In Vivo Fitness of a Chimeric Hepatitis C/GB Virus B
title_short A Cooperative Interaction between Nontranslated RNA Sequences and NS5A Protein Promotes In Vivo Fitness of a Chimeric Hepatitis C/GB Virus B
title_sort cooperative interaction between nontranslated rna sequences and ns5a protein promotes in vivo fitness of a chimeric hepatitis c/gb virus b
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2635954/
https://www.ncbi.nlm.nih.gov/pubmed/19204793
http://dx.doi.org/10.1371/journal.pone.0004419
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