trans-activation and autoregulation of gene expression by the immediate-early region 2 gene products of human cytomegalovirus.

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J Virol. 1988 April; 62(4): 1167-1179

trans-activation and autoregulation of gene expression by the immediate-early region 2 gene products of human cytomegalovirus.

M C Pizzorno, P O'Hare, L Sha, R L LaFemina and G S Hayward

Department of Pharmacology and Molecular Sciences, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205.

ABSTRACT

The major immediate-early (IE) gene region mapping at coordinates0.71 to 0.74 in the genome of human cytomegalovirus (HCMV) givesrise to a series of overlapping spliced IE mRNAs that are allunder the transcriptional control of the complex IE68 promoter-enhancerregion. We show here that one of the phosphorylated nuclearproteins encoded by this region behaves as a powerful but nonspecifictrans-activator of gene expression. In transient chloramphenicolacetyltransferase (CAT) assay experiments with Vero cells allrelatively weak heterologous target promoters tested, includingthose of herpes simplex virus IE175 and delayed-early genes,adenovirus E3, the enhancerless simian virus 40 early gene,and the human beta interferon gene, were stimulated between30- and 800-fold by cotransfection with the HindIII C fragmentof HCMV (Towne) DNA. In contrast, expression of the homologousHCMV IE68-CAT gene but not SV2-CAT was specifically repressed.Inactivation mapping studies of the effector DNA, together withdose-response comparisons with subclones from the region, revealedthat an intact 7.1-kilobase sequence encompassing both the IE1and IE2 coding regions (exons 1 to 5) in the major IE transcriptioncomplex was required for both the nonspecific trans-activationand autoregulatory responses. The IE1 coding region alone (exons1 to 4) was inactive, but both functions were restored by insertionof the IE2 coding region (exon 5) in the correct orientationdownstream from the IE1 coding region. Internal deletions orinserted terminator codons in IE1 (exon 4) still gave efficienttrans-activation and autoregulation, whereas the insertion ofterminator codons in IE2 (exon 5) abolished both activities.Finally, IE2 (exon 5) sequences only (under the direct transcriptionalcontrol of the strong simian CMV IE94 promoter) were still ableto specifically down regulate IE68-CAT expression but failedto exhibit trans-activation properties. Therefore, the IE2 geneproduct(s) of HCMV appear likely to be key control proteinsinvolved in gene regulation during HCMV infection.

J Virol. 1988 April; 62(4): 1167-1179

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