Deep Sequencing of Viral Genomes Provides Insight into the Evolution and Pathogenesis of Varicella Zoster Virus and Its Vaccine in Humans

Immunization with the vOka vaccine prevents varicella (chickenpox) in children and susceptible adults. The vOka vaccine strain comprises a mixture of genotypes and, despite attenuation, causes rashes in small numbers of recipients. Like wild-type virus, the vaccine establishes latency in neuronal ti...

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Published inMolecular biology and evolution Vol. 31; no. 2; pp. 397 - 409
Main Authors Depledge, Daniel P., Kundu, Samit, Jensen, Nancy J., Gray, Eleanor R., Jones, Meleri, Steinberg, Sharon, Gershon, Anne, Kinchington, Paul R., Schmid, D. Scott, Balloux, Francois, Nichols, Richard A., Breuer, Judith
Format Journal Article
LanguageEnglish
Published United States Oxford University Press 01.02.2014
Subjects
Alleles
Attenuation
Chicken pox
Discoveries
Evolution
Evolution, Molecular
Exanthema
Exanthema - virology
Gene sequencing
Genome, Viral
Genomes
Genotype
Genotypes
Haplotypes
Herpes zoster
Herpesvirus 3, Human - genetics
Herpesvirus 3, Human - pathogenicity
High-Throughput Nucleotide Sequencing
Humans
Hybridization
Immunization
Inoculation
Latency
Lesions
Molecular Sequence Data
Mutation
Mutation Rate
Pathogenesis
Phylogeny
Polymorphism, Single Nucleotide
Positive selection
Selection, Genetic
Skin - virology
Skin diseases
Skin lesions
Vaccines
Varicella
Varicella-zoster virus
Viral Vaccines - adverse effects
Viral Vaccines - genetics
Viruses
viral evolution
alphaherpesvirus
pathogenesis
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Abstract Immunization with the vOka vaccine prevents varicella (chickenpox) in children and susceptible adults. The vOka vaccine strain comprises a mixture of genotypes and, despite attenuation, causes rashes in small numbers of recipients. Like wild-type virus, the vaccine establishes latency in neuronal tissue and can later reactivate to cause Herpes zoster (shingles). Using hybridization-based methodologies, we have purified and sequenced vOka directly from skin lesions. We show that alleles present in the vaccine can be recovered from the lesions and demonstrate the presence of a severe bottleneck between inoculation and lesion formation. Genotypes in any one lesion appear to be descended from one to three vaccine-genotypes with a low frequency of novel mutations. No single vOka haplotype and no novel mutations are consistently present in rashes, indicating that neither new mutations nor recombination with wild type are critical to the evolution of vOka rashes. Instead, alleles arising from attenuation (i.e., not derived from free-living virus) are present at lower frequencies in rash genotypes. We identify 11 loci at which the ancestral allele is selected for in vOka rash formation and show genotypes in rashes that have reactivated from latency cannot be distinguished from rashes occurring immediately after inoculation. We conclude that the vOka vaccine, although heterogeneous, has not evolved to form rashes through positive selection in the mode of a quasispecies, but rather alleles that were essentially neutral during the vaccine production have been selected against in the human subjects, allowing us to identify key loci for rash formation.
AbstractList Immunization with the vOka vaccine prevents varicella (chickenpox) in children and susceptible adults. The vOka vaccine strain comprises a mixture of genotypes and, despite attenuation, causes rashes in small numbers of recipients. Like wild-type virus, the vaccine establishes latency in neuronal tissue and can later reactivate to cause Herpes zoster (shingles). Using hybridization-based methodologies, we have purified and sequenced vOka directly from skin lesions. We show that alleles present in the vaccine can be recovered from the lesions and demonstrate the presence of a severe bottleneck between inoculation and lesion formation. Genotypes in any one lesion appear to be descended from one to three vaccine-genotypes with a low frequency of novel mutations. No single vOka haplotype and no novel mutations are consistently present in rashes, indicating that neither new mutations nor recombination with wild type are critical to the evolution of vOka rashes. Instead, alleles arising from attenuation (i.e., not derived from free-living virus) are present at lower frequencies in rash genotypes. We identify 11 loci at which the ancestral allele is selected for in vOka rash formation and show genotypes in rashes that have reactivated from latency cannot be distinguished from rashes occurring immediately after inoculation. We conclude that the vOka vaccine, although heterogeneous, has not evolved to form rashes through positive selection in the mode of a quasispecies, but rather alleles that were essentially neutral during the vaccine production have been selected against in the human subjects, allowing us to identify key loci for rash formation.
Immunization with the vOka vaccine prevents varicella (chickenpox) in children and susceptible adults. The vOka vaccine strain comprises a mixture of genotypes and, despite attenuation, causes rashes in small numbers of recipients. Like wild-type virus, the vaccine establishes latency in neuronal tissue and can later reactivate to cause Herpes zoster (shingles). Using hybridization-based methodologies, we have purified and sequenced vOka directly from skin lesions. We show that alleles present in the vaccine can be recovered from the lesions and demonstrate the presence of a severe bottleneck between inoculation and lesion formation. Genotypes in any one lesion appear to be descended from one to three vaccine-genotypes with a low frequency of novel mutations. No single vOka haplotype and no novel mutations are consistently present in rashes, indicating that neither new mutations nor recombination with wild type are critical to the evolution of vOka rashes. Instead, alleles arising from attenuation (i.e., not derived from free-living virus) are present at lower frequencies in rash genotypes. We identify 11 loci at which the ancestral allele is selected for in vOka rash formation and show genotypes in rashes that have reactivated from latency cannot be distinguished from rashes occurring immediately after inoculation. We conclude that the vOka vaccine, although heterogeneous, has not evolved to form rashes through positive selection in the mode of a quasispecies, but rather alleles that were essentially neutral during the vaccine production have been selected against in the human subjects, allowing us to identify key loci for rash formation.Immunization with the vOka vaccine prevents varicella (chickenpox) in children and susceptible adults. The vOka vaccine strain comprises a mixture of genotypes and, despite attenuation, causes rashes in small numbers of recipients. Like wild-type virus, the vaccine establishes latency in neuronal tissue and can later reactivate to cause Herpes zoster (shingles). Using hybridization-based methodologies, we have purified and sequenced vOka directly from skin lesions. We show that alleles present in the vaccine can be recovered from the lesions and demonstrate the presence of a severe bottleneck between inoculation and lesion formation. Genotypes in any one lesion appear to be descended from one to three vaccine-genotypes with a low frequency of novel mutations. No single vOka haplotype and no novel mutations are consistently present in rashes, indicating that neither new mutations nor recombination with wild type are critical to the evolution of vOka rashes. Instead, alleles arising from attenuation (i.e., not derived from free-living virus) are present at lower frequencies in rash genotypes. We identify 11 loci at which the ancestral allele is selected for in vOka rash formation and show genotypes in rashes that have reactivated from latency cannot be distinguished from rashes occurring immediately after inoculation. We conclude that the vOka vaccine, although heterogeneous, has not evolved to form rashes through positive selection in the mode of a quasispecies, but rather alleles that were essentially neutral during the vaccine production have been selected against in the human subjects, allowing us to identify key loci for rash formation.
Immunization with the vOka vaccine prevents varicella (chickenpox) in children and susceptible adults. The vOka vaccine strain comprises a mixture of genotypes and, despite attenuation, causes rashes in small numbers of recipients. Like wild-type virus, the vaccine establishes latency in neuronal tissue and can later reactivate to cause Herpes zoster (shingles). Using hybridization-based methodologies, we have purified and sequenced vOka directly from skin lesions. We show that alleles present in the vaccine can be recovered from the lesions and demonstrate the presence of a severe bottleneck between inoculation and lesion formation. Genotypes in any one lesion appear to be descended from one to three vaccine-genotypes with a low frequency of novel mutations. No single vOka haplotype and no novel mutations are consistently present in rashes, indicating that neither new mutations nor recombination with wild type are critical to the evolution of vOka rashes. Instead, alleles arising from attenuation (i.e., not derived from free-living virus) are present at lower frequencies in rash genotypes. We identify 11 loci at which the ancestral allele is selected for in vOka rash formation and show genotypes in rashes that have reactivated from latency cannot be distinguished from rashes occurring immediately after inoculation. We conclude that the vOka vaccine, although heterogeneous, has not evolved to form rashes through positive selection in the mode of a quasispecies, but rather alleles that were essentially neutral during the vaccine production have been selected against in the human subjects, allowing us to identify key loci for rash formation. [PUBLICATION ABSTRACT]
Author Kundu, Samit
Nichols, Richard A.
Kinchington, Paul R.
Depledge, Daniel P.
Breuer, Judith
Jensen, Nancy J.
Steinberg, Sharon
Gray, Eleanor R.
Jones, Meleri
Gershon, Anne
Balloux, Francois
Schmid, D. Scott
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/24162921$$D View this record in MEDLINE/PubMed
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Copyright The Author 2013. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. 2013
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The Author 2013. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. This work is published under http://creativecommons.org/licenses/by-nc/3.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
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Issue 2
Keywords viral evolution
alphaherpesvirus
pathogenesis
Language English
License This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited. For commercial re-use, please contact journals.permissions@oup.com
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Associate editor: Helen Piontkivska
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PublicationTitle Molecular biology and evolution
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Snippet Immunization with the vOka vaccine prevents varicella (chickenpox) in children and susceptible adults. The vOka vaccine strain comprises a mixture of genotypes...
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SubjectTerms Alleles
Attenuation
Chicken pox
Discoveries
Evolution
Evolution, Molecular
Exanthema
Exanthema - virology
Gene sequencing
Genome, Viral
Genomes
Genotype
Genotypes
Haplotypes
Herpes zoster
Herpesvirus 3, Human - genetics
Herpesvirus 3, Human - pathogenicity
High-Throughput Nucleotide Sequencing
Humans
Hybridization
Immunization
Inoculation
Latency
Lesions
Molecular Sequence Data
Mutation
Mutation Rate
Pathogenesis
Phylogeny
Polymorphism, Single Nucleotide
Positive selection
Selection, Genetic
Skin - virology
Skin diseases
Skin lesions
Vaccines
Varicella
Varicella-zoster virus
Viral Vaccines - adverse effects
Viral Vaccines - genetics
Viruses
Title Deep Sequencing of Viral Genomes Provides Insight into the Evolution and Pathogenesis of Varicella Zoster Virus and Its Vaccine in Humans
URI https://www.ncbi.nlm.nih.gov/pubmed/24162921
https://www.proquest.com/docview/1493892321
https://www.proquest.com/docview/3171261594
https://www.proquest.com/docview/1492693639
https://www.proquest.com/docview/1505350603
https://pubmed.ncbi.nlm.nih.gov/PMC3907055
Volume 31
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