HSV-1 ICP22: Hijacking host nuclear functions to enhance viral infection

Stephen A. Rice; David J. Davido

doi:10.2217/fmb.13.4

HSV-1 ICP22: Hijacking host nuclear functions to enhance viral infection

Stephen A. Rice, David J. Davido

Microbiology

Research output: Contribution to journal › Review article › peer-review

19 Scopus citations

Abstract

During its productive infection, HSV-1 dramatically remodels the architecture and physiology of the host cell nucleus. The immediate-early proteins, the first viral proteins to be expressed during infection, are key players in this process. Here, we review the known properties and functions of immediate-early protein ICP22. Although this polypeptide has received less attention than other immediate-early proteins, the published evidence indicates that it mediates several striking changes to important host nuclear systems, including those involved in RNA polymerase II transcription, cell cycle regulation and protein quality control. Recent genetic analyses suggest that these alterations can promote HSV-1 productive infection. Thus, future work on ICP22 is likely to reveal novel mechanisms by which herpesviruses, and possibly other DNA viruses, manipulate the host cell nucleus to enhance their replication.

Original language	English (US)
Pages (from-to)	311-321
Number of pages	11
Journal	Future Microbiology
Volume	8
Issue number	3
DOIs	https://doi.org/10.2217/fmb.13.4
State	Published - Mar 2013

Keywords

HSV-1
Hsc70
RNA polymerase II carboxy-terminal domain
cdk9
cyclin-dependent kinase
host chaperone
immediate-early protein ICP22

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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title = "HSV-1 ICP22: Hijacking host nuclear functions to enhance viral infection",

abstract = "During its productive infection, HSV-1 dramatically remodels the architecture and physiology of the host cell nucleus. The immediate-early proteins, the first viral proteins to be expressed during infection, are key players in this process. Here, we review the known properties and functions of immediate-early protein ICP22. Although this polypeptide has received less attention than other immediate-early proteins, the published evidence indicates that it mediates several striking changes to important host nuclear systems, including those involved in RNA polymerase II transcription, cell cycle regulation and protein quality control. Recent genetic analyses suggest that these alterations can promote HSV-1 productive infection. Thus, future work on ICP22 is likely to reveal novel mechanisms by which herpesviruses, and possibly other DNA viruses, manipulate the host cell nucleus to enhance their replication.",

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AU - Davido, David J.

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AB - During its productive infection, HSV-1 dramatically remodels the architecture and physiology of the host cell nucleus. The immediate-early proteins, the first viral proteins to be expressed during infection, are key players in this process. Here, we review the known properties and functions of immediate-early protein ICP22. Although this polypeptide has received less attention than other immediate-early proteins, the published evidence indicates that it mediates several striking changes to important host nuclear systems, including those involved in RNA polymerase II transcription, cell cycle regulation and protein quality control. Recent genetic analyses suggest that these alterations can promote HSV-1 productive infection. Thus, future work on ICP22 is likely to reveal novel mechanisms by which herpesviruses, and possibly other DNA viruses, manipulate the host cell nucleus to enhance their replication.

KW - HSV-1

KW - Hsc70

KW - RNA polymerase II carboxy-terminal domain

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KW - cyclin-dependent kinase

KW - host chaperone

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HSV-1 ICP22: Hijacking host nuclear functions to enhance viral infection

Abstract

Keywords

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