Reciprocal regulation of the Epstein-Barr virus BamHI-F promoter by EBNA-1 and an E2F transcription factor.

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Mol Cell Biol. 1994 November; 14(11): 7144-7152

Reciprocal regulation of the Epstein-Barr virus BamHI-F promoter by EBNA-1 and an E2F transcription factor.

N S Sung, J Wilson, M Davenport, N D Sista and J S Pagano

UNC Lineberger Comprehensive Cancer Center, University of North Carolina at Chapel Hill 27599, USA.

ABSTRACT

The Epstein-Barr virus BamHI-F promoter (Fp) is one of threeused to transcribe the EBNA latency proteins, in particular,EBNA-1, the only viral gene product needed for episomal replication.Fp is distinguished by possession of the only EBNA-1 bindingsites (the Q locus) in the Epstein-Barr virus genome outsideoriP. Activity of Fp is negatively autoregulated by interactionof EBNA-1 at two sites in the Q locus, which is situated downstreamof the RNA start site. We demonstrate in transient assays thatthis EBNA-1-mediated repression of Fp can be overcome by anE2F transcription factor which interacts with the DNA at a sitecentered between the two EBNA-1 binding sites within the Q locus.An E2F-1 fusion protein protects the sequence 5'-GGATGGCGGGTAATA-3'from DNase I digestion, and a DNA probe containing this sequencebinds an E2F-specific protein complex from cell extracts, althoughthis region is only loosely homologous with known consensusbinding sites for E2F transcription factors. In mobility shiftassays, E2F can displace the binding of EBNA-1 from the Q locusbut not from oriP, where the E2F binding site is not present.E2F also activates expression of Fp in epithelial cells. Thesefindings identify a potentially new binding site for membersof the E2F family of transcription factors and suggest thatsuch a factor is important for expression of EBNA-1 in lymphoidand epithelial cells by displacing EBNA-1 from the Q locus.In addition, the possibility that Fp activity is under cellcycle control is raised. Since the supply of functional E2Fvaries during the cell cycle and since in these assays overexpressionof E2F can overcome repression of Fp by EBNA-1, control of transcriptionof EBNA-1 mRNA by cell cycle regulatory factors may help tobring about ordered replication of episomes.

Mol Cell Biol. 1994 November; 14(11): 7144-7152

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