Deep sequencing analysis of defective genomes of parainfluenza virus 5 and their role in interferon induction

M. J. Killip; D. F. Young; D. Gatherer; C. S. Ross; J. A. L. Short; A. J. Davison; S. Goodbourn; R. E. Randall

doi:10.1128/JVI.03383-12

Deep sequencing analysis of defective genomes of parainfluenza virus 5 and their role in interferon induction

M. J. Killip, D. F. Young, D. Gatherer, C. S. Ross, J. A. L. Short, A. J. Davison, S. Goodbourn, R. E. Randall^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Preparations of parainfluenza virus 5 (PIV5) that are potent activators of the interferon (IFN) induction cascade were generated by high-multiplicity passage in order to accumulate defective interfering virus genomes (DIs). Nucleocapsid RNA from these virus preparations was extracted and subjected to deep sequencing. Sequencing data were analyzed using methods designed to detect internal deletion and "copyback" DIs in order to identify and characterize the different DIs present and to approximately quantify the ratio of defective to nondefective genomes. Trailer copybacks dominated the DI populations in IFN-inducing preparations of both the PIV5 wild type (wt) and PIV5-V Delta C (a recombinant virus that does not encode a functional V protein). Although the PIV5 V protein is an efficient inhibitor of the IFN induction cascade, we show that nondefective PIV5 wt is unable to prevent activation of the IFN response by coinfecting copyback DIs due to the interfering effects of copyback DIs on nondefective virus protein expression. As a result, copyback DIs are able to very rapidly activate the IFN induction cascade prior to the expression of detectable levels of V protein by coinfecting nondefective virus.

Original language	English
Pages (from-to)	4798-4807
Number of pages	10
Journal	Journal of Virology
Volume	87
Issue number	9
DOIs	https://doi.org/10.1128/JVI.03383-12
Publication status	Published - May 2013

Keywords

Activation
Infected-cells
RIG-I
Paramyxovirus V proteins
Internal deletions
5'-triphosphate RNA
IFN-Beta promoter
Viral-RNA Synthesis
Negative-strand virus
Antiviral responses

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Copyright © 2013, American Society for Microbiology. This is a paid open access article.
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title = "Deep sequencing analysis of defective genomes of parainfluenza virus 5 and their role in interferon induction",

abstract = "Preparations of parainfluenza virus 5 (PIV5) that are potent activators of the interferon (IFN) induction cascade were generated by high-multiplicity passage in order to accumulate defective interfering virus genomes (DIs). Nucleocapsid RNA from these virus preparations was extracted and subjected to deep sequencing. Sequencing data were analyzed using methods designed to detect internal deletion and {"}copyback{"} DIs in order to identify and characterize the different DIs present and to approximately quantify the ratio of defective to nondefective genomes. Trailer copybacks dominated the DI populations in IFN-inducing preparations of both the PIV5 wild type (wt) and PIV5-V Delta C (a recombinant virus that does not encode a functional V protein). Although the PIV5 V protein is an efficient inhibitor of the IFN induction cascade, we show that nondefective PIV5 wt is unable to prevent activation of the IFN response by coinfecting copyback DIs due to the interfering effects of copyback DIs on nondefective virus protein expression. As a result, copyback DIs are able to very rapidly activate the IFN induction cascade prior to the expression of detectable levels of V protein by coinfecting nondefective virus.",

keywords = "Activation, Infected-cells, RIG-I, Paramyxovirus V proteins, Internal deletions, 5'-triphosphate RNA, IFN-Beta promoter, Viral-RNA Synthesis, Negative-strand virus, Antiviral responses",

author = "Killip, {M. J.} and Young, {D. F.} and D. Gatherer and Ross, {C. S.} and Short, {J. A. L.} and Davison, {A. J.} and S. Goodbourn and Randall, {R. E.}",

note = "This work was supported by The Wellcome Trust (087751/A/08/Z).",

year = "2013",

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doi = "10.1128/JVI.03383-12",

language = "English",

volume = "87",

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journal = "Journal of Virology",

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publisher = "American Society for Microbiology",

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T1 - Deep sequencing analysis of defective genomes of parainfluenza virus 5 and their role in interferon induction

AU - Killip, M. J.

AU - Young, D. F.

AU - Gatherer, D.

AU - Ross, C. S.

AU - Short, J. A. L.

AU - Davison, A. J.

AU - Goodbourn, S.

AU - Randall, R. E.

N1 - This work was supported by The Wellcome Trust (087751/A/08/Z).

PY - 2013/5

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N2 - Preparations of parainfluenza virus 5 (PIV5) that are potent activators of the interferon (IFN) induction cascade were generated by high-multiplicity passage in order to accumulate defective interfering virus genomes (DIs). Nucleocapsid RNA from these virus preparations was extracted and subjected to deep sequencing. Sequencing data were analyzed using methods designed to detect internal deletion and "copyback" DIs in order to identify and characterize the different DIs present and to approximately quantify the ratio of defective to nondefective genomes. Trailer copybacks dominated the DI populations in IFN-inducing preparations of both the PIV5 wild type (wt) and PIV5-V Delta C (a recombinant virus that does not encode a functional V protein). Although the PIV5 V protein is an efficient inhibitor of the IFN induction cascade, we show that nondefective PIV5 wt is unable to prevent activation of the IFN response by coinfecting copyback DIs due to the interfering effects of copyback DIs on nondefective virus protein expression. As a result, copyback DIs are able to very rapidly activate the IFN induction cascade prior to the expression of detectable levels of V protein by coinfecting nondefective virus.

AB - Preparations of parainfluenza virus 5 (PIV5) that are potent activators of the interferon (IFN) induction cascade were generated by high-multiplicity passage in order to accumulate defective interfering virus genomes (DIs). Nucleocapsid RNA from these virus preparations was extracted and subjected to deep sequencing. Sequencing data were analyzed using methods designed to detect internal deletion and "copyback" DIs in order to identify and characterize the different DIs present and to approximately quantify the ratio of defective to nondefective genomes. Trailer copybacks dominated the DI populations in IFN-inducing preparations of both the PIV5 wild type (wt) and PIV5-V Delta C (a recombinant virus that does not encode a functional V protein). Although the PIV5 V protein is an efficient inhibitor of the IFN induction cascade, we show that nondefective PIV5 wt is unable to prevent activation of the IFN response by coinfecting copyback DIs due to the interfering effects of copyback DIs on nondefective virus protein expression. As a result, copyback DIs are able to very rapidly activate the IFN induction cascade prior to the expression of detectable levels of V protein by coinfecting nondefective virus.

KW - Activation

KW - Infected-cells

KW - RIG-I

KW - Paramyxovirus V proteins

KW - Internal deletions

KW - 5'-triphosphate RNA

KW - IFN-Beta promoter

KW - Viral-RNA Synthesis

KW - Negative-strand virus

KW - Antiviral responses

U2 - 10.1128/JVI.03383-12

DO - 10.1128/JVI.03383-12

M3 - Article

SN - 0022-538X

VL - 87

SP - 4798

EP - 4807

JO - Journal of Virology

JF - Journal of Virology

IS - 9

ER -

Deep sequencing analysis of defective genomes of parainfluenza virus 5 and their role in interferon induction

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Keywords

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