EBV is detected in epithelial cells in a unique oral lesion known as """"""""hairy"""""""" leukoplakia (HLP), which is a harbinger for the development of the acquired immunodeficiency syndrome (AIDS). In contrast to most EBV- associated diseases, HLP is a permissive EBV infection with abundant viral replication. We have shown that HLP may harbor both EBV Types 1 and 2 within a lesion and that co-infection with multiple strains of EBV may occur. We have also determined that intertypic recombination and the generation of new EBV variants and defective EBV genomes is a frequent occurrence in HLP and that the strains of EBV which are replicating on the tongue in HLP infect the peripheral blood. These studies have revealed that there are at least seven different strains of EBV that can be distinguished by sequence changes within LMP1. We have also shown that HLP has a distinct pattern of viral expression with concurrent expression of viral genes expressed in permissive. infection and the viral proteins characteristic of latent, transforming infection in lymphocytes, including EBNA2, EBNA-LP, and LMP1. To farther understand the pathogenesis of HLP, the proposed studies will develop in vitro epithelial cell infection systems using laboratory isolates and then use these systems to characterize infection with wild type isolates. Specifically, in Aim l, cultured epithelial cells will be used to determine if there are differences in the degree of infection and viral expression during infection of different epithelial cell lines, between infections with virus produced by lymphoid or epithelial cells, or whether entry is mediated by the known viral receptor, CD21, or by co-cultivation. We will determine if expression of CD21 contributes to superinfection and whether superinfection induces viral replication.
In Aim 2, we will utilize our new method of distinguishing strains by LMP1 sequence changes, in addition to EBNA typing, to identify the strains of EBV which are replicating on the tongue in HLP and in peripheral blood lymphocytes. This method and EBNA typing will be used to determine if a subset of these wild type EBV strains can be enriched by passage in epithelial cells in vitro. The wild type isolates will be characterized for their relative ability to infect and establish latent or permissive infections in the cultured epithelial cell systems developed in Aim l. These studies will determine if potentially lytic or epithelial-trophic isolates of EBV are present in HLP and the strains will be captured for biologic and biochemical characterization. To determine the contribution to HLP pathogenesis of the latent, transforming EBV genes LMP1, EBNA2, and EBNA-LP that we have identified in HLP, we will analyze the effects of LMP1, EBNA2, and EBNA-LP on viral infection and epithelial cell growth.
In Aim 3, we will determine the effects of LMP1 on viral infection and replication in polarized epithelial cells and raft cultures and determine the molecular properties of the LMP1 variants.
In Aim 4, we will determine the effect of EBNA2 and LP on EBV expression early after infection and on expression of CD212 and other cellular genes. Our studies of HLP have revealed that HLP is a novel infection, which we hypothesize is an overt manifestation of the pathobiology of EBV during AIDS. The proposed studies will identify and characterize the viral determinants of disease, further our understanding of oral manifestations of EBV reactivation, and illuminate the complexities of EBV infection in HIV infected individuals.

Agency
National Institute of Health (NIH)
Institute
National Institute of Dental & Craniofacial Research (NIDCR)
Type
Research Project (R01)
Project #
2R01DE011644-09A2
Application #
6152196
Study Section
Special Emphasis Panel (ZRG1-AARR-4 (01))
Program Officer
Mangan, Dennis F
Project Start
1995-09-01
Project End
2005-04-30
Budget Start
2000-05-01
Budget End
2001-04-30
Support Year
9
Fiscal Year
2000
Total Cost
$213,239
Indirect Cost
Name
University of North Carolina Chapel Hill
Department
Microbiology/Immun/Virology
Type
Schools of Medicine
DUNS #
078861598
City
Chapel Hill
State
NC
Country
United States
Zip Code
27599
Tierney, Rosemary J; Edwards, Rachel Hood; Sitki-Green, Diane et al. (2006) Multiple Epstein-Barr virus strains in patients with infectious mononucleosis: comparison of ex vivo samples with in vitro isolates by use of heteroduplex tracking assays. J Infect Dis 193:287-97
Hahn, Angela M; Huye, Leslie E; Ning, Shunbin et al. (2005) Interferon regulatory factor 7 is negatively regulated by the Epstein-Barr virus immediate-early gene, BZLF-1. J Virol 79:10040-52
Sitki-Green, Diane L; Edwards, Rachel Hood; Covington, Mary M et al. (2004) Biology of Epstein-Barr virus during infectious mononucleosis. J Infect Dis 189:483-92
Edwards, Rachel H; Sitki-Green, Diane; Moore, Dominic T et al. (2004) Potential selection of LMP1 variants in nasopharyngeal carcinoma. J Virol 78:868-81
Sitki-Green, Diane; Covington, Mary; Raab-Traub, Nancy (2003) Compartmentalization and transmission of multiple epstein-barr virus strains in asymptomatic carriers. J Virol 77:1840-7
Sitki-Green, Diane; Edwards, Rachel H; Webster-Cyriaque, Jennifer et al. (2002) Identification of Epstein-Barr virus strain variants in hairy leukoplakia and peripheral blood by use of a heteroduplex tracking assay. J Virol 76:9645-56
Webster-Cyriaque, Jennifer (2002) Development of Kaposi's sarcoma in a surgical wound. N Engl J Med 346:1207-10
Webster-Cyriaque, J; Middeldorp, J; Raab-Traub, N (2000) Hairy leukoplakia: an unusual combination of transforming and permissive Epstein-Barr virus infections. J Virol 74:7610-8
Edwards, R H; Seillier-Moiseiwitsch, F; Raab-Traub, N (1999) Signature amino acid changes in latent membrane protein 1 distinguish Epstein-Barr virus strains. Virology 261:79-95
Walling, D M; Shebib, N; Weaver, S C et al. (1999) The molecular epidemiology and evolution of Epstein-Barr virus: sequence variation and genetic recombination in the latent membrane protein-1 gene. J Infect Dis 179:763-74

Showing the most recent 10 out of 15 publications