Analysis of the BZLF1 promoter of Epstein-Barr virus: identification of an anti-immunoglobulin response sequence.

The induction of the viral lytic cycle in latently Epstein-Barr virus (EBV)-infected B cells is initiated by activation of the BZLF1 gene, whose expression is sufficient to disrupt EBV latency, suggesting that BZLF1 acts as the switch to change from a latent to a lytic replicative cycle. In the present studies, a series of deletion plasmids encompassing positions bp -552 to +12 of the BZLF1 promoter were constructed and tested for their response to anti-immunoglobulin (anti-Ig), an inducer of the viral lytic cycle, upon transfection into EBV-negative and -positive lymphoid cells. The promoter consisted of three functionally distinct regions. Region I (bp -552 to -221) had a negative influence on promoter activity; its deletion made the promoter highly responsive to anti-Ig. Region II (bp -203 to -177) was important for conferring responsiveness to anti-Ig. The response to anti-Ig did not require the presence of the EBV genome or EBV gene products. This sequence also enhanced expression of the chloramphenicol acetyltransferase (cat) gene from the simian virus 40 promoter in response to anti-Ig, even when inserted downstream of the cat gene. Region III (-134 to -116) was a positive element that was transactivated by the BZLF1 gene product.     

Sequences Distal to the AP1/E Box Motif Are Involved in the Cell Type-Specific Expression of the Rat Tyrosine Hydroxylase Gene

Abstract: In order to define cell type-specific elements associated with the catecholamine biosynthetic enzyme, tyrosine hydroxylase (TH), transient transfections of promoter deletion constructs were used to test relative reporter-gene activities in TH-expressing and-nonexpressing cell lines. Such assays demonstrated that a region between-503 and-578 contributed to rat TH promoter activity in the pheochromocytoma cell line PC12. Deletion of these sequences resulted in a 66% loss in cell type-specific activity. Mutations within the E box/dyad symmetry element (CAGGTGCCTGTGACAGTG) did not affect the basal and cell type-specific pattern of expression exhibited by the rat TH promoter. Promoter fusion constructs between the rat TH promoter (-741 and-197) and the human TH promoter (-197 and +1) exhibited reporter-gene activities equivalent to that of wild-type-741 rat TH constructs, further demonstrating that sequence elements upstream of the rat E box/dyad symmetry are important for cell type-specific expression. Gel-shift experiments indicated that a PC12 nuclear factor could bind to a 39-bp sequence within this region in a cell type-specific manner. The size of this factor was 52 kDa as determined by UV cross-linking experiments.     

Single-stranded structures are present within plasmids containing the Epstein-Barr virus latent origin of replication.

The Epstein-Barr virus (EBV) latent origin of plasmid replication (oriP) contains two essential regions, a family of repeats with 20 imperfect copies of a 30-bp sequence and a dyad symmetry element with four similar 30-bp repeats. Each of the repeats has an internal palindromic sequence and can bind EBNA 1, a protein that together with oriP constitutes the only viral element necessary for EBV maintenance and replication. Using single-strand-specific nucleases, we have probed plasmids containing oriP-derived sequences for the presence of secondary structural elements. Multiple single-stranded structures were detected within the oriP region. Of the two essential elements of oriP, the family of repeats seemed to extrude these structures at a much higher frequency than did sequences within the dyad symmetry region. Though negative supercoiling was found to stabilize the single-stranded structures, they showed significant stability even after linearization of the oriP plasmids. Two major single-stranded structures detected involved approximately 12 bp of DNA. These loci could be transiently unwound regions that form because of negative supercoiling and the high A + T content of this region of DNA, or they could be cruciform structures extruded within the palindromic sequences of oriP that may be important sites for protein-DNA interactions in the EBV oriP.     

Functional limits of oriP, the Epstein-Barr virus plasmid origin of replication.

The Epstein-Barr virus (EBV) genome contains two cis-acting elements which are required for stable extrachromosomal plasmid maintenance in latently infected cells. The first consists of 20 30-base-pair (bp) repeats, each of which contains a DNA-binding site for EBV nuclear antigen 1 (EBNA-1), the trans-acting factor required for plasmid persistence. The second element is composed of a 65-bp dyad symmetry, containing four EBNA-1-binding sites. Deletion mutants were constructed which reduce the number of EBNA-1-binding sites in the 30-bp repeats, alter the number of EBNA-1-binding sites in the dyad region, or truncate the dyad element. The effect of the deletion mutations on plasmid maintenance was examined by transfecting recombinant plasmids, containing both the mutated EBV sequences and a drug resistance marker, into D98-Raji cells. The plasmids were tested for their ability to generate drug-resistant D98-Raji cell colonies and their capacity to be maintained in an extrachromosomal form without undergoing extensive rearrangements. EBV plasmids with 12 or 15 copies of the 30-bp repeats were wild type in both assays. Plasmids with just two or six copies of these repeated elements failed to generate drug-resistant colonies at a normal level, and normal episomal plasmids were not detected in the resulting colonies. Rare colonies of cells resulting from transfection of these two- or six-copy mutants contained rearranged, episomal forms of the input plasmids. The rearrangements most often produced head-to-tail oligomers containing a minimum of eight 30-bp repeated elements. The rearranged plasmids were shown to be revertant for plasmid maintenance in that they yielded wild-type or greater numbers of drug-resistant colonies and persisted at the wild-type or a greater episomal copy number. By use of an EBV plasmid that contained no 30-bp elements, no revertants could be isolated. One to five copies of a synthetic linker corresponding to a consensus 30-bp repeated element inserted into a plasmid with no 30-bp elements now permitted the generation of oligomeric, episomal forms of the mutant test plasmid. These experiments demonstrate a requirement for a minimal number (six to eight copies) of the 30-bp repeated element. Deletions in the 65-bp dyad region had little or no effect upon the ability to generate enhanced numbers of drug-resistant D98-Raji colonies, indicating that the 30-bp repeated element is predominantly required for this phenotype.(ABSTRACT TRUNCATED AT 400 WORDS)     

Identification of phorbol ester response elements in the promoter of Epstein-Barr virus putative lytic switch gene BZLF1

The product of the Epstein-Barr virus BZLF1 gene encodes a protein which is related to c-fos, it has been shown to bind specifically to a consensus AP-1 site, and its expression in latently Epstein-Barr virus-infected lymphocytes is sufficient to trigger the viral lytic cycle. We identified several elements within the BZLF1 promoter (Zp) which are responsive to the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA), an inducer of the viral lytic cycle. These elements fall into two classes based on the factors which bind to these sequences and their resulting functional behavior. Four of the elements are homologous (ZI elements) and share homology to a protein-binding domain in the promoter region of the coordinately expressed BRLF1 gene. When cloned upstream of heterologous promoters, the ZI elements function as silencers which exhibit TPA-inducible enhancer activity. A distinct TPA-responsive element (ZII) is located near the TATA box and shares homology with the AP-1-binding site in the c-jun promoter. A synthetic oligonucleotide with a sequence corresponding to the ZII element effectively competes for binding of nuclear factors to the c-jun AP-1 site. Furthermore, we found that a complex of c-jun and c-fos bound to the ZII domain.     

Activity of simian virus 40 late promoter elements in the absence of large T antigen: evidence for repression of late gene expression.

We used chloramphenicol acetyltransferase transient expression to examine the activity of the promoter elements of the simian virus 40 late promoter in the absence of large T antigen. Since the experiments were done in permissive CV-1 cells, these conditions mimic the state which exists early in the viral lytic cycle before the onset of replication and T-antigen-mediated trans activation. Our data, using deletion analysis, indicate that removal of the 21-base-pair (bp) repeat region causes as much as a 10-fold increase in activity of the late promoter elements. This result suggests that the 21-bp repeat sequences may be involved in repression of the late promoter elements during the early phase of the lytic infection. This is supported by competition analysis which indicates that increasing amounts of competitor containing only the 21-bp repeat region results in increased activity of the intact promoter. A model for the activity of the late promoter through the course of lytic infection is presented.     

Structure and Growth-Dependent Regulation of the Human Cyclin B1 Promoter

As a step toward defining the signals important for the regulation of cyclin B1 expression, we cloned, sequenced, and partially characterized a 1012-bp genomic fragment encompassing the human cyclin B1 promoter. By transient expression experiments, we found that promoter activity resides within a -150/+182-bp DNA fragment. The activity of this promoter fragment was high in asynchronous NIH-3T3 cells, but dramatically decreased in quiescent cells. Time-course experiments, using stable transfectants expressing the CAT gene under the control of this fragment, were performed after releasing the cells from serum starvation. The results showed that the promoter becomes active at the end of the S phase and its activity increases during the cell cycle. Similar experiments performed with a shorter promoter region (-58/+182) showed that this 5′ deletion mutant is active throughout the cell cycle. In good agreement with promoter activity, Northern analysis indicated that the endogenous gene is negatively regulated in quiescent murine NIH-3T3 cells. The data presented here demonstrate that in NIH-3T3 cells the cyclin B1 promoter is growth regulated, and important regulatory elements must exist in the region spanning - 150 to 58 bp.     

Both positive and negative regulatory elements mediate expression of a photoregulated CAB gene from Nicotiana plumbaginifolia.

We have analyzed promoter regulatory elements from a photoregulated CAB gene (Cab-E) isolated from Nicotiana plumbaginifolia. These studies have been performed by introducing chimeric gene constructs into tobacco cells via Agrobacterium tumefaciens-mediated transformation. Expression studies on the regenerated transgenic plants have allowed us to characterize three positive and one negative cis-acting elements that influence photoregulated expression of the Cab-E gene. Within the upstream sequences we have identified two positive regulatory elements (PRE1 and PRE2) which confer maximum levels of photoregulated expression. These sequences contain multiple repeated elements related to the sequence-ACCGGCCCACTT-. We have also identified within the upstream region a negative regulatory element (NRE) extremely rich in AT sequences, which reduces the level of gene expression in the light. We have defined a light regulatory element (LRE) within the promoter region extending from -396 to -186 bp which confers photoregulated expression when fused to a constitutive nopaline synthase ('nos') promoter. Within this region there is a 132-bp element, extending from -368 to -234 bp, which on deletion from the Cab-E promoter reduces gene expression from high levels to undetectable levels. Finally, we have demonstrated for a full length Cab-E promoter conferring high levels of photoregulated expression, that sequences proximal to the Cab-E TATA box are not replaceable by corresponding sequences from a 'nos' promoter. This contrasts with the apparent equivalence of these Cab-E and 'nos' TATA box-proximal sequences in truncated promoters conferring low levels of photoregulated expression.     

Identification of the 12-O-tetradecanoylphorbol-13-acetate-responsive enhancer of the MS gene of the Epstein-Barr virus.

We previously located two 12-O-tetradecanoylphorbol-13-acetate (TPA)-responsive enhancers, MSTRE-I and MSTRE-II, in the upstream sequence of the MS gene of Epstein-Barr virus (Liu, Q., and Summers, W.C. (1989) J. Virol. 63, 5062-5068). The core sequence of the MSTRE-I enhancer is now determined to be between -718 and -708 of the upstream sequence of the MS gene. The activity of the enhancer is also sensitive to its immediate surrounding sequence on either side. A single copy of a 30-base pair (bp) fragment containing the MSTRE-I sequence was able to confer TPA responsiveness upon the MS promoter even in the absence of an AP-1 binding site. Multiple tandem copies of this 30-bp fragment, regardless of their relative orientations to each other, could function synergistically to enhance the MS promoter activity. At least two copies of the 30-bp fragment were required to bestow TPA induction upon the thymidine kinase gene promoter of herpes simplex virus type 1. The MSTRE-I sequence could also be bound by a Fos-GCN4 chimeric protein but with an affinity much lower than that between the chimeric protein and the AP-1 binding site. This MSTRE-I region has strong homology to one of the TPA-responsive elements (the ZII domain) in the upstream sequence of the EBV BZLF1 gene. In addition, a putative negative regulatory region or silencer was found immediately downstream of the MSTRE-I enhancer. This potential silencer region contains a 14-bp sequence that is homologous to the silencer consensus sequence of the BZLF1 gene. Therefore, the regulation of the MS gene may share the same pathway with the immediate early gene BZLF1.