The Epstein-Barr virus nuclear protein 1 promoter active in type I latency is autoregulated.

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J Virol. 1992 August; 66(8): 4654-4661

The Epstein-Barr virus nuclear protein 1 promoter active in type I latency is autoregulated.

J Sample, E B Henson and C Sample

Department of Virology and Molecular Biology, St. Jude Children's Research Hospital, Memphis, Tennessee 38101.

ABSTRACT

The only member of the Epstein-Barr virus family of nuclearproteins (EBNAs) expressed during type I and type II latentinfections is EBNA-1. This is in contrast to type III latency,during which all six nuclear proteins are expressed from a commontranscription unit. The exclusive expression of EBNA-1 duringtype I and II latency is mediated through a recently identifiedpromoter, Fp. The objective of this study was to characterizeFp in the Burkitt lymphoma cell background, where it is knownto be differentially utilized. Using a short-term transfectionassay and reporter gene plasmids containing Fp linked to thehuman growth hormone, we examined Fp activity in type I andtype III latently infected and virus-negative Burkitt lymphomacells. The data suggested that Fp is predominantly regulatedthrough two distinct elements located between +24 and +270 relativeto the transcription start site. One element positively mediatesFp activity, probably at the level of transcription, and actsin a virus-independent manner. The second element contains theEBNA-1 DNA binding domain III and negatively regulates Fp-directedgene expression in trans with EBNA-1 in type III as well astype I latency. Thus, we have identified a third function ofEBNA-1, i.e., that of a repressor of gene expression, in additionto its known role in viral DNA replication and its ability totrans-activate gene expression. The overall activity of Fp intype I latently infected Burkitt cells was approximately sixfoldlower than in virus-negative Burkitt cells, in which there isno autoregulation, suggesting that there is a fine balance betweenthese two opposing regulatory elements during type I latency.

J Virol. 1992 August; 66(8): 4654-4661

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