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Article
Nature Medicine  8, 1098 - 1104 (2002)
Published online: 3 September 2002; | doi:10.1038/nm758

Epstein−Barr virus−associated Burkitt lymphomagenesis selects for downregulation of the nuclear antigen EBNA2

Gemma Kelly, Andrew Bell & Alan Rickinson

Cancer Research UK Institute for Cancer Studies, The University of Birmingham, Edgbaston, Birmingham, UK

Correspondence should be addressed to Alan Rickinson a.b.rickinson@bham.ac.uk
Epstein−Barr virus (EBV) is etiologically linked to endemic Burkitt lymphoma (BL), but its contribution to lymphomagenesis, versus that of the chromosomal translocation leading to c-myc gene deregulation, remains unclear. The virus's growth-transforming (Latency III) program of gene expression is extinguished in tumor cells, and only a single viral protein, the EBV nuclear antigen (EBNA)1, is expressed via the alternative Latency I program. It is not known if BL arises from a B-cell subset in which EBV naturally adopts a Latency I infection or if a clone with limited antigen expression has been selected from an EBV-transformed Latency III progenitor pool. Here we identify a subset of BL tumors in which the Latency III-associated EBNA promoter Wp is active and most EBNAs are expressed, but where a gene deletion has specifically abrogated the expression of EBNA2. This implies that BL can be selected from a Latency III progenitor and that the principal selection pressure is for downregulation of the c-Myc antagonist EBNA2.

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REFERENCE
Epstein–Barr Virus
Nature Encyclopaedia of Life Sciences
 See all 2 matches for Reference

REVIEWS
Epstein–Barr virus and oncogenesis: from latent genes to tumours
Oncogene Reviews (11 Aug 2003)
 See all 4 matches for Reviews

NEWS AND VIEWS
EBV framed in Burkitt lymphoma
Nature Medicine News and Views (01 Oct 2002)

RESEARCH
Antisense to Epstein Barr Virus-encoded LMP1 does not affect the transcription of viral and cellular proliferation-related genes, but induces phenotypic effects on EBV-transformed B lymphocytes
Oncogene Short Communication (13 Jun 2002)
N-terminal domain of BARF1 gene encoded by Epstein-Barr virus is essential for malignant transformation of rodent fibroblasts and activation of BCL-2
Oncogene Original Article (08 Mar 2001)
 See all 8 matches for Research

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