Abstract

The herpesviruses are the largest and most complex of the known oncogenic DNA viruses and are suspected of having a role either directly, or as cofactors, in the development of cervical carcinoma, Burkitt's lymphoma and nasopharyngeal carcinoma, as well as in a variety of animal tumors. These viruses are also of major concern as reactivated infections and potential tumorgenic agents in AIDS and other immunocompromised patients. Our research focuses on aspects of herpesvirus molecular biology centering around interactions between viral and cellular DNA and gene products that are relevant to how the virus genome (a) usurps control of the cell, (b) causes cell transformation, and (c) establishes a latent state in susceptible neurons, lymphocytes or white blood cells. During the current project period we have opted to concentrate exclusively on reconstruction experiments with cloned intact immediate-early genes and their target promoters to ask specific questions about details of the mechanism of herpes simplex virus early gene regulation. Using both transient expression assays and long-term DNA-transfected cell lines we plan to: (1) explain why the positive non-specific trans-activating properties of the protein product of the isolated IE110 (or ICP0) gene are repressed or dominated by cotransfection with the IE175 (or ICP4) gene, (2) define the mechanism by which the IE110 gene product activates heterologous promoter targets and examine the possible requirements for a particular """"""""state"""""""" of the target DNA, (3) clearly identify the DNA sequence specificity requirements for positive activation of delayed-early class genes by the isolated IE175 gene product and (4) examine further and manipulate the response to cis-acting DNA signals for IE175 negative autoregulation. Knowledged of the detailed mechanism of IE175 and IE110 trans-activation, in comparison with those other nuclear transcriptional regulatory proteins with similar properties (i.e. I1A, T-antigen, v-myc and v myb), should help to explain why some of them act as oncogenes capable of transforming or immortalizing cells, whereas others do not.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA028473-09
Application #
3168161
Study Section
Virology Study Section (VR)
Project Start
1980-09-30
Project End
1992-02-29
Budget Start
1989-03-01
Budget End
1990-02-28
Support Year
9
Fiscal Year
1989
Total Cost
Indirect Cost

  Institution

Name
Johns Hopkins University
Department
Type
Schools of Medicine
DUNS #
045911138
City
Baltimore
State
MD
Country
United States
Zip Code
21218

  Publications

Lacayo, N J; Lum, B L; Becton, D L et al. (2002) Pharmacokinetic interactions of cyclosporine with etoposide and mitoxantrone in children with acute myeloid leukemia. Leukemia 16:920-7
Conway, J E; Zolotukhin, S; Muzyczka, N et al. (1997) Recombinant adeno-associated virus type 2 replication and packaging is entirely supported by a herpes simplex virus type 1 amplicon expressing Rep and Cap. J Virol 71:8780-9
Zhong, L; Hayward, G S (1997) Assembly of complete, functionally active herpes simplex virus DNA replication compartments and recruitment of associated viral and cellular proteins in transient cotransfection assays. J Virol 71:3146-60
Mullen, M A; Gerstberger, S; Ciufo, D M et al. (1995) Evaluation of colocalization interactions between the IE110, IE175, and IE63 transactivator proteins of herpes simplex virus within subcellular punctate structures. J Virol 69:476-91
Mullen, M A; Ciufo, D M; Hayward, G S (1994) Mapping of intracellular localization domains and evidence for colocalization interactions between the IE110 and IE175 nuclear transactivator proteins of herpes simplex virus. J Virol 68:3250-66
Ciufo, D M; Mullen, M A; Hayward, G S (1994) Identification of a dimerization domain in the C-terminal segment of the IE110 transactivator protein from herpes simplex virus. J Virol 68:3267-82
Perera, L P; Mosca, J D; Ruyechan, W T et al. (1993) A major transactivator of varicella-zoster virus, the immediate-early protein IE62, contains a potent N-terminal activation domain. J Virol 67:4474-83
Mosca, J D; Pitha, P M; Hayward, G S (1992) Herpes simplex virus infection selectively stimulates accumulation of beta interferon reporter gene mRNA by a posttranscriptional mechanism. J Virol 66:3811-22
Ambinder, R F; Mullen, M A; Chang, Y N et al. (1991) Functional domains of Epstein-Barr virus nuclear antigen EBNA-1. J Virol 65:1466-78
Pizzorno, M C; Mullen, M A; Chang, Y N et al. (1991) The functionally active IE2 immediate-early regulatory protein of human cytomegalovirus is an 80-kilodalton polypeptide that contains two distinct activator domains and a duplicated nuclear localization signal. J Virol 65:3839-52

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