Identification, Molecular Cloning, and Analysis of Full-Length Hepatitis C Virus Transmitted/Founder Genotypes 1, 3, and 4

Hepatitis C virus (HCV) infection is characterized by persistent replication of a complex mixture of viruses termed a “quasispecies.” Transmission is generally associated with a stringent population bottleneck characterized by infection by limited numbers of “transmitted/founder” (T/F) viruses. Char...

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Autores principales: Stoddard, Mark B., Li, Hui, Wang, Shuyi, Saeed, Mohsan, Andrus, Linda, Ding, Wenge, Jiang, Xinpei, Learn, Gerald H., von Schaewen, Markus, Wen, Jessica, Goepfert, Paul A., Hahn, Beatrice H., Ploss, Alexander, Rice, Charles M., Shaw, George M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society of Microbiology 2015
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4358020/
https://www.ncbi.nlm.nih.gov/pubmed/25714714
http://dx.doi.org/10.1128/mBio.02518-14
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author Stoddard, Mark B.
Li, Hui
Wang, Shuyi
Saeed, Mohsan
Andrus, Linda
Ding, Wenge
Jiang, Xinpei
Learn, Gerald H.
von Schaewen, Markus
Wen, Jessica
Goepfert, Paul A.
Hahn, Beatrice H.
Ploss, Alexander
Rice, Charles M.
Shaw, George M.
author_facet Stoddard, Mark B.
Li, Hui
Wang, Shuyi
Saeed, Mohsan
Andrus, Linda
Ding, Wenge
Jiang, Xinpei
Learn, Gerald H.
von Schaewen, Markus
Wen, Jessica
Goepfert, Paul A.
Hahn, Beatrice H.
Ploss, Alexander
Rice, Charles M.
Shaw, George M.
author_sort Stoddard, Mark B.
collection PubMed
description Hepatitis C virus (HCV) infection is characterized by persistent replication of a complex mixture of viruses termed a “quasispecies.” Transmission is generally associated with a stringent population bottleneck characterized by infection by limited numbers of “transmitted/founder” (T/F) viruses. Characterization of T/F genomes of human immunodeficiency virus type 1 (HIV-1) has been integral to studies of transmission, immunopathogenesis, and vaccine development. Here, we describe the identification of complete T/F genomes of HCV by single-genome sequencing of plasma viral RNA from acutely infected subjects. A total of 2,739 single-genome-derived amplicons comprising 10,966,507 bp from 18 acute-phase and 11 chronically infected subjects were analyzed. Acute-phase sequences diversified essentially randomly, except for the poly(U/UC) tract, which was subject to polymerase slippage. Fourteen acute-phase subjects were productively infected by more than one genetically distinct virus, permitting assessment of recombination between replicating genomes. No evidence of recombination was found among 1,589 sequences analyzed. Envelope sequences of T/F genomes lacked transmission signatures that could distinguish them from chronic infection viruses. Among chronically infected subjects, higher nucleotide substitution rates were observed in the poly(U/UC) tract than in envelope hypervariable region 1. Fourteen full-length molecular clones with variable poly(U/UC) sequences corresponding to seven genotype 1a, 1b, 3a, and 4a T/F viruses were generated. Like most unadapted HCV clones, T/F genomes did not replicate efficiently in Huh 7.5 cells, indicating that additional cellular factors or viral adaptations are necessary for in vitro replication. Full-length T/F HCV genomes and their progeny provide unique insights into virus transmission, virus evolution, and virus-host interactions associated with immunopathogenesis.
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spelling pubmed-43580202015-03-17 Identification, Molecular Cloning, and Analysis of Full-Length Hepatitis C Virus Transmitted/Founder Genotypes 1, 3, and 4 Stoddard, Mark B. Li, Hui Wang, Shuyi Saeed, Mohsan Andrus, Linda Ding, Wenge Jiang, Xinpei Learn, Gerald H. von Schaewen, Markus Wen, Jessica Goepfert, Paul A. Hahn, Beatrice H. Ploss, Alexander Rice, Charles M. Shaw, George M. mBio Research Article Hepatitis C virus (HCV) infection is characterized by persistent replication of a complex mixture of viruses termed a “quasispecies.” Transmission is generally associated with a stringent population bottleneck characterized by infection by limited numbers of “transmitted/founder” (T/F) viruses. Characterization of T/F genomes of human immunodeficiency virus type 1 (HIV-1) has been integral to studies of transmission, immunopathogenesis, and vaccine development. Here, we describe the identification of complete T/F genomes of HCV by single-genome sequencing of plasma viral RNA from acutely infected subjects. A total of 2,739 single-genome-derived amplicons comprising 10,966,507 bp from 18 acute-phase and 11 chronically infected subjects were analyzed. Acute-phase sequences diversified essentially randomly, except for the poly(U/UC) tract, which was subject to polymerase slippage. Fourteen acute-phase subjects were productively infected by more than one genetically distinct virus, permitting assessment of recombination between replicating genomes. No evidence of recombination was found among 1,589 sequences analyzed. Envelope sequences of T/F genomes lacked transmission signatures that could distinguish them from chronic infection viruses. Among chronically infected subjects, higher nucleotide substitution rates were observed in the poly(U/UC) tract than in envelope hypervariable region 1. Fourteen full-length molecular clones with variable poly(U/UC) sequences corresponding to seven genotype 1a, 1b, 3a, and 4a T/F viruses were generated. Like most unadapted HCV clones, T/F genomes did not replicate efficiently in Huh 7.5 cells, indicating that additional cellular factors or viral adaptations are necessary for in vitro replication. Full-length T/F HCV genomes and their progeny provide unique insights into virus transmission, virus evolution, and virus-host interactions associated with immunopathogenesis. American Society of Microbiology 2015-02-24 /pmc/articles/PMC4358020/ /pubmed/25714714 http://dx.doi.org/10.1128/mBio.02518-14 Text en Copyright © 2015 Stoddard et al. http://creativecommons.org/licenses/by-nc-sa/3.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution-Noncommercial-ShareAlike 3.0 Unported license (http://creativecommons.org/licenses/by-nc-sa/3.0/) , which permits unrestricted noncommercial use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Stoddard, Mark B.
Li, Hui
Wang, Shuyi
Saeed, Mohsan
Andrus, Linda
Ding, Wenge
Jiang, Xinpei
Learn, Gerald H.
von Schaewen, Markus
Wen, Jessica
Goepfert, Paul A.
Hahn, Beatrice H.
Ploss, Alexander
Rice, Charles M.
Shaw, George M.
Identification, Molecular Cloning, and Analysis of Full-Length Hepatitis C Virus Transmitted/Founder Genotypes 1, 3, and 4
title Identification, Molecular Cloning, and Analysis of Full-Length Hepatitis C Virus Transmitted/Founder Genotypes 1, 3, and 4
title_full Identification, Molecular Cloning, and Analysis of Full-Length Hepatitis C Virus Transmitted/Founder Genotypes 1, 3, and 4
title_fullStr Identification, Molecular Cloning, and Analysis of Full-Length Hepatitis C Virus Transmitted/Founder Genotypes 1, 3, and 4
title_full_unstemmed Identification, Molecular Cloning, and Analysis of Full-Length Hepatitis C Virus Transmitted/Founder Genotypes 1, 3, and 4
title_short Identification, Molecular Cloning, and Analysis of Full-Length Hepatitis C Virus Transmitted/Founder Genotypes 1, 3, and 4
title_sort identification, molecular cloning, and analysis of full-length hepatitis c virus transmitted/founder genotypes 1, 3, and 4
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4358020/
https://www.ncbi.nlm.nih.gov/pubmed/25714714
http://dx.doi.org/10.1128/mBio.02518-14
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