Abstract

The goal of this research is to define the mechanisms by which the herpes simplex virus ICP27 protein stimulates late viral gene expression through post-transcriptional processes and how HSV infection changes the properties of cellular nuclear proteins such as the retinoblastoma (Rb) gene product and the role of ICP27 in this process. The long term goals of this research are to understand how the ICP27 protein moves into and within the cell nucleus and interacts with specific molecules and structures to effect changes in gene expression and cell metabolism. These proposed studies are of medical relevance because ICP27 provides a potential target for antiviral agents to block HSV replication. In addition, these studies are of general interest in providing a system to study how a virus inhibits the progression of the cell cycle and to study possible mechanisms for controlling cell growth. First, the effect of ICP27 on late gene expression will be studied by analyzing late RNA transport, processing and stability in wild type and ICP27 mutant virus-infected cells. Ribonucleoprotein complexes formed with late RNAs in infected cells and in vitro with infected cell extracts will be examined to determine whether changes in these complexes can explain the effect of ICP27 on post- transcriptional steps in late gene expression. Second, an approach will be developed using in situ hybridization with cultured cells for determining the intranuclear location of late viral transcripts, and this will be used to determine how the intranuclear location of late viral transcripts changes during viral infection and how ICP27 might affect this parameter of viral gene expression. Third, the effects of HSV infection and of ICP27 on the properties of the retinoblastinoma gene product (Rb) will be determined by defining the biochemical basis for the change in the forms of Rb in HSV infected cells, defining the mechanism of the requirement for ICP27 for this effect, and determination if ICP27 is sufficient to mediate this effect. Fourth, the amino acid signals on ICP27 which target it to the cell nucleus will be examined by constructing gene fusions between the genes for ICP27 and a cytoplasmic protein, pyruvate kinase.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI020530-12
Application #
2061258
Study Section
Experimental Virology Study Section (EVR)
Project Start
1983-12-01
Project End
1997-04-30
Budget Start
1995-05-01
Budget End
1996-04-30
Support Year
12
Fiscal Year
1995
Total Cost
Indirect Cost

  Institution

Name
Harvard University
Department
Microbiology/Immun/Virology
Type
Schools of Medicine
DUNS #
082359691
City
Boston
State
MA
Country
United States
Zip Code
02115

  Publications

Johnson, Karen E; Song, Byeongwoon; Knipe, David M (2008) Role for herpes simplex virus 1 ICP27 in the inhibition of type I interferon signaling. Virology 374:487-94
Fontaine-Rodriguez, Errin C; Knipe, David M (2008) Herpes simplex virus ICP27 increases translation of a subset of viral late mRNAs. J Virol 82:3538-45
Melroe, Gregory T; Silva, Lindsey; Schaffer, Priscilla A et al. (2007) Recruitment of activated IRF-3 and CBP/p300 to herpes simplex virus ICP0 nuclear foci: Potential role in blocking IFN-beta induction. Virology 360:305-21
Olesky, Melanie; McNamee, Elizabeth E; Zhou, Changhong et al. (2005) Evidence for a direct interaction between HSV-1 ICP27 and ICP8 proteins. Virology 331:94-105
Fontaine-Rodriguez, Errin C; Taylor, Travis J; Olesky, Melanie et al. (2004) Proteomics of herpes simplex virus infected cell protein 27: association with translation initiation factors. Virology 330:487-92
Melroe, Gregory T; DeLuca, Neal A; Knipe, David M (2004) Herpes simplex virus 1 has multiple mechanisms for blocking virus-induced interferon production. J Virol 78:8411-20
Pearson, Angela; Knipe, David M; Coen, Donald M (2004) ICP27 selectively regulates the cytoplasmic localization of a subset of viral transcripts in herpes simplex virus type 1-infected cells. J Virol 78:23-32
Kurt-Jones, Evelyn A; Chan, Melvin; Zhou, Shenghua et al. (2004) Herpes simplex virus 1 interaction with Toll-like receptor 2 contributes to lethal encephalitis. Proc Natl Acad Sci U S A 101:1315-20
Zhou, Changhong; Knipe, David M (2002) Association of herpes simplex virus type 1 ICP8 and ICP27 proteins with cellular RNA polymerase II holoenzyme. J Virol 76:5893-904
Song, B; Yeh, K C; Liu, J et al. (2001) Herpes simplex virus gene products required for viral inhibition of expression of G1-phase functions. Virology 290:320-8

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