Comparison of upstream sequence requirements for positive and negative regulation of a herpes simplex virus immediate-early gene by three virus-encoded trans-acting factors.

Using a short-term cotransfection system with recombinant chloramphenicol acetyltransferase (CAT) target genes and intact genes for regulatory proteins, we previously demonstrated that expression from the promoter-regulatory region of the gene for the immediate-early 175,000-molecular-weight (IE175K) protein of herpes simplex virus type 1 was subject to trans-acting effects by three different virus-encoded components. In the present work we have attempted to delineate the upstream cis-acting requirements within the IE175K promoter-regulatory region for stimulation by the late structural protein Vmw65, stimulation by the IE110K protein, and repression by its own gene product, the IE175K protein. Our results augment previous reports of others by demonstrating that a construct containing only the single TAATGARAT consensus sequence, TAATGGAAT, between -115 and -106 was efficiently induced by Vmw65. Deletion to -108 effectively abolished the response to Vmw65. However, this latter construct remained responsive to IE110K stimulation and was induced as efficiently as the parental construct which contained sequences to -1900. Furthermore, not only basal levels of expression, but also Vmw65 activation of the parental construct and deletion mutants delta 380, delta 330, delta 300, and delta 160 and IE110K-activated expression of the delta 108 construct were all subject to dominant repression by the IE175K protein. Finally, we show that expression from each of the deletions was open to stimulation by linkage to the simian virus 40 enhancer region. Enhancer-stimulated expression from each construct, including the -108 deletion, was efficiently repressed by the IE175K protein. In contrast, expression from the simian virus 40 enhancer when linked to its own promoter was unaffected by IE175K. These results place sequence requirements for both IE110K stimulation and IE175K autoregulation within the minimal promoter region -108 to +30, separate from the major requirements for Vmw65 activation located further upstream.     

The 89,000-Mr murine cytomegalovirus immediate-early protein activates gene transcription

To study trans-activation of gene expression by murine cytomegalovirus (MCMV) immediate-early (IE) proteins, the IE coding region 1 (ie1), which encodes the 89,000-Mr IE phosphoprotein (pp89), was stably introduced into L cells. A cell line was selected and characterized that efficiently expressed the authentic viral protein. The pp89 that was constitutively expressed in L cells stimulated the expression of transfected recombinant constructs containing the bacterial chloramphenicol acetyltransferase (CAT) gene under the control of viral promoters. The regulatory function of the ie1 product was confirmed by transient expression assays in which MCMV IE genes were cotransfected into L cells together with recombinant constructs of the CAT gene. For CAT activation by the ie1 product, a promoter region was required, but there was no preferential activation of a herpes simplex virus type 1 delayed-early promoter. All plasmid constructs that contained the intact coding sequences for pp89 induced gene expression in trans. The MCMV enhancer region was not essential for the expression of a functional IE gene product, and testing of the cis-regulatory activity of the MCMV enhancer revealed a low activity in L cells. Another region transcribed at IE times of infection, IE coding region 2, was unable to induce CAT expression and also did not augment the functional activity of ie1 after cotransfection.     

The regions important for the activator and repressor functions of herpes simplex virus type 1 alpha protein ICP27 map to the C-terminal half of the molecule.

The herpes simplex virus type 1 (HSV-1) alpha or immediate-early proteins ICP4 (IE175), ICP0 (IE110), and ICP27 (IE63) are trans-acting proteins which affect HSV-1 gene expression. We previously showed that ICP27 in combination with ICP4 and ICP0 could act as a repressor or an activator in transfection assays, depending on the target gene (R. E. Sekulovich, K. Leary, and R. M. Sandri-Goldin, J. Virol. 62:4510-4522, 1988). To investigate the regions of the ICP27 protein which specify these functions, we constructed a series of in-frame insertion and deletion mutants in the ICP27 gene. These mutants were analyzed in transient expression assays for the ability to repress or to activate two different target genes. The target plasmids used consisted of the promoter regions from the HSV-1 beta or early gene which encodes thymidine kinase and from the beta-gamma or leaky late gene. VP5, which encodes the major capsid protein, each fused to the chloramphenicol acetyltransferase gene. Our previous studies showed that induction of pTK-CAT expression by ICP4 and ICP0 was repressed by ICP27, whereas the stimulation of pVP5-CAT expression seen with ICP4 and ICP0 was significantly increased when ICP27 was also added. In this study, a series of transfection assays was performed with each of the ICP27 mutant plasmids in combination with plasmids containing the ICP4 and ICP0 genes with each target. The results of these experiments showed that mutants containing insertions or deletions in the region from amino acids 262 to 406 in the carboxy-terminal half of the protein were unable to stimulate expression of pVP5-CAT but were able to repress induction of pTK-CAT activity by ICP4 and ICP0. Mutants in the carboxy-terminal 78 amino acids lost both activities; that is, these mutants did not show repression of pTK-CAT activity or stimulation of pVP5-CAT activity, whereas mutants in the hydrophilic amino-terminal half of ICP27 were able to perform both functions. These results show that the carboxy-terminal half of ICP27 is important for the activation and repression functions. Furthermore, the carboxy-terminal 62 amino acids are required for the repressor activity, because mutants with this region intact were able to repress. Analysis of the DNA sequence showed that there are a number of cysteine and histidine residues encoded by this region which have some similarity to zinc finger metal-binding regions found in other eucaryotic regulatory proteins. These results suggest that the structural integrity of this region is important for the function of ICP27.     

Expression of recombinant genes containing herpes simplex virus delayed-early and immediate-early regulatory regions and trans activation by herpesvirus infection.

The promoter-regulatory regions from the herpes simplex virus type 1 (HSV-1) gene for the immediate-early, 175,000-molecular-weight (175K) protein and the HSV-2 delayed-early gene for a 38K protein were linked to the readily assayable bacterial gene for the enzyme chloramphenicol acetyltransferase (CAT). Unexpectedly, in measurements of the constitutive expression of the recombinant genes 40 to 50 h after transfection of Vero cells, enzyme levels expressed from the delayed-early 38K-promoter-CAT construct (p38KCAT) were at least as high as those from the immediate-early 175K-promoter-CAT construct (p175KCAT). In contrast, enzyme levels expressed after transfection of a similar recombinant gene containing a second delayed-early promoter region, that of the HSV-1 thymidine kinase gene, were ca. 20-fold lower. The amounts of enzyme expressed from both p38KCAT and p175KCAT could be increased by up to 20- to 40-fold after infection of the transfected cells with HSV. In comparison, virus infection had no significant effect on enzyme levels expressed from recombinant CAT genes containing the simian virus 40 early promoter region, with or without the 72-base-pair enhancer element. Experiments with the temperature-sensitive mutants HSV-1 tsB7 and HSV-1 tsK indicate that induction of expression from p175KCAT was mediated by components of the infecting virus particle, whereas that from p38KCAT required de novo expression of virus immediate-early proteins. In addition, we show that functions required to induce expression from both p175KCAT and p38KCAT could also be provided by infection with pseudorabies virus and cytomegalovirus.     

Regulatory function of the equine herpesvirus 1 ICP27 gene product.

The UL3 protein of equine herpesvirus 1 (EHV-1) KyA strain is a homolog of the ICP27 alpha regulatory protein of herpes simplex virus type 1 (HSV-1) and the ORF 4 protein of varicella-zoster virus. To characterize the regulatory function of the UL3 gene product, a UL3 gene expression vector (pSVUL3) and a vector expressing a truncated version of the UL3 gene (pSVUL3P) were generated. These effector plasmids, in combination with an EHV-1 immediate-early (IE) gene expression vector (pSVIE) and chimeric EHV-1 promoter-chloramphenicol acetyltransferase (CAT) reporter constructs, were used in transient transfection assays. These assays demonstrated that the EHV-1 UL3 gene product is a regulatory protein that can independently trans activate the EHV-1 IE promoter; however, this effect can be inhibited by the repressive function of the IE gene product on the IE promoter (R. H. Smith, G. B. Caughman, and D. J. O'Callaghan, J. Virol. 66:936-945, 1992). In the presence of the IE gene product, the UL3 gene product significantly augments gene expression directed by the promoters of three EHV-1 early genes (thymidine kinase; IR4, which is the homolog of HSV-1 ICP22; and UL3 [ICP27]) and the promoter of the EHV-1 late gene IR5, which is the homolog of HSV-1 US10. Sequences located at nucleotides -123 to +20 of the UL3 promoter harbor a TATA box, SP1 binding site, CAAT box, and octamer binding site and, when linked to the CAT reporter gene, are trans activated to maximal levels by the pSVIE construct in transient expression assays. Results from CAT assays also suggest that the first 11 amino acids of the UL3 protein are not essential for the regulatory function of the UL3 gene product.     

Direct correlation between a negative autoregulatory response element at the cap site of the herpes simplex virus type 1 IE175 (alpha 4) promoter and a specific binding site for the IE175 (ICP4) protein.

In transient-expression assays, the IE175 (alpha 4) promoter region of herpes simple virus is down-regulated after cotransfection with DNA encoding its own protein product (IE175 or ICP4). The inhibition by IE175 proved to be highly specific for its own promoter region and did not act on either the herpes simplex virus type 1 IE110 (alpha 0) or human cytomegalovirus major immediate-early promoters. Furthermore, the inhibition was still exhibited by IE175 effector plasmids driven by strong heterologous promoters and therefore must be a direct autoregulatory response that cannot be explained by promoter competition effects. In gel mobility retardation assays with infected-cell nuclear extracts, a prominent and specific DNA-protein complex was formed with DNA fragments containing sequences from -108 to +30 in the IE175 promoter region. This activity was not present in mock-infected samples. Even stronger binding occurred with a fragment containing sequences from -128 to +120 in the IE110 promoter, but this second locus was not associated with any detectable response phenotype in cotransfection assays. Supershift experiments with an anti-IE175 monoclonal antibody confirmed the presence of the IE175 protein in both DNA-protein complexes. In the IE175 promoter, specific binding correlated closely with the presence of an intact autoregulatory signal near the cap site as judged by the loss of both activities in a 3'-deleted promoter fragment lacking sequences from -7 to +30. Insertion of a cloned 30-mer synthetic oligonucleotide sequence from positions -8 to +18 in IE175 restored both IE175 binding activity and the down-regulation phenotype. Direct shift-up assays with a similar 30-base-pair (bp) oligonucleotide containing 21 bp from positions -75 to -55 of IE110 (which encompasses a consensus ATCGTC motif) also produced a specific DNA-protein complex containing the IE175 protein. This ATCGTC motif proved to be a necessary component of both the IE110 and IE175 binding sites, but was insufficient on its own for complex formation. Finally, deletion of 2 bp from positions -3 and -4 within the ATCGTC sequence in the IE175 cap site region abolished both binding activity and the IE175-dependent autoregulation phenotype.     

Thyroid hormone-responsive elements of the prolactin gene: evidence for both positive and negative regulation

To analyze the regulation of PRL gene expression by thyroid hormone (T3), fusion gene constructs containing various lengths of the rat PRL gene 5'-flanking sequence linked to the bacterial chloramphenicol acetyltransferase (CAT) gene were transfected into the GH3 cell line. Thyroid hormone had no effect on basal or cAMP-stimulated CAT expression in constructs containing more than 1.7 kilobasepairs of the 5'-sequence. However, deletion to 1.5 or 0.6 kilobasepairs resulted in an inhibition of both basal and cAMP-stimulated expression by T3. A construct containing the proximal enhancer region (positions -292 to -38 basepairs) linked to the herpes simplex thymidine kinase promoter (TK) and the CAT reporter gene also responded to T3 with inhibition of basal and cAMP-induced CAT expression. The distal enhancer region (positions -1714 to -1495) linked to thymidine kinase promoter CAT responded to T3 with a stimulation of CAT expression, and the response was additive with the stimulatory response to cAMP. Deletion analysis of the distal enhancer region revealed that the sequence between positions -1530 and -1565 was required for the stimulatory response to T3. The stimulatory response to T3 was additive with the response to estradiol, suggesting distinct elements, but deletion to position -1565 abolished the response to estradiol and permitted an inhibitory response to T3. Mutation of the estrogen response element prevents the response to estradiol, but only blunted the response to T3. Mutation of the sequence GGTCA at positions -1555 to -1551 resulted in an inhibitory response to T3, implicating this sequence in the stimulatory response.(ABSTRACT TRUNCATED AT 250 WORDS)