The equine herpesvirus 1 (EHV-1) UL3 gene, an ICP27 homolog, is necessary for full activation of gene expression directed by an EHV-1 late promoter.

We have previously reported that the equine herpesvirus 1 (EHV-1) XbaI G restriction fragment (nucleotides 1436 to 7943 relative to the left terminus of the EHV-1 genome [Kentucky A strain]) is required in combination with the EHV-1 immediate-early (IE) gene to achieve significant activation of two representative EHV-1 late promoter-chloramphenicol acetyltransferase (CAT) recombinants in transient expression assays. In this report, we demonstrate that the XbaI G-encoded UL3 gene (an ICP27 homolog) provides a trans-acting factor which acts (in combination with the EHV-1 IE gene product) to increase reporter gene expression directed by an EHV-1 late promoter-CAT recombinant plasmid. We show that cloned copies of UL3 can successfully substitute for the XbaI G fragment in CAT assays and that stop codon insertion within the UL3 open reading frame inhibits the ability of UL3 to activate reporter gene expression in trans.     

Varicella-zoster virus open reading frame 61 protein is functionally homologous to herpes simplex virus type 1 ICP0.

The varicella-zoster virus (VZV) open reading frame 61 (ORF61) protein is thought to be the homolog of herpes simplex virus type 1 (HSV-1) ICP0, based on gene location and limited amino acid homology. However, HSV-1 ICP0 trans activates HSV-1 genes, while VZV ORF61 protein trans represses the function of VZV trans activators on VZV promoters in transient expression assays. To investigate the functional relatedness of HSV-1 ICP0 and VZV ORF61 protein, we established Vero and MeWo cell lines which stably express VZV ORF61 under the control of a metallothionein promoter and performed complementation studies with an HSV-1 ICP0 deletion mutant (7134). Mutant 7134 is impaired for plaque formation and replication at a low multiplicity of infection in cell culture, but these defects were complemented by up to 200-fold in Vero cell lines expressing VZV ORF61. Likewise, the efficiency of plaque formation was improved by up to 100-fold in MeWo cell lines expressing VZV ORF61. A cell line expressing another VZV immediate-early gene product (ORF62) was unable to complement mutant 7134. HSV-1 mutants which are deleted for other HSV-1 immediate-early gene products (ICP4, ICP27) were unable to grow in VZV ORF61-expressing cell lines. These results indicate that, despite marked differences in their sequences and in effects on their cognate promoters in transient expression assays, VZV ORF61 protein is the functional homolog of HSV-1 ICP0.     

The extreme carboxyl terminus of the equine herpesvirus 1 homolog of herpes simplex virus VP16 is essential for immediate-early gene activation.

Gene 12 of equine herpesvirus 1 (EHV-1), the homolog of herpes simplex virus (HSV) VP16 (alpha TIF, Vmw65), was cloned into a eukaryotic expression vector by PCR and used in transactivation studies of both the EHV-1 and HSV-1 IE1 promoters. Results demonstrated that the product of gene 12 is a potent transactivator of immediate-early gene expression of both viruses, which requires sequences in the upstream HSV-1 promoter for activity. Mutational analysis of the gene 12 open reading frame indicated that removal of the C-terminal 7 amino acids, which contain a short region of homology with the extreme C terminus of VP16, inactivated the protein. Within this region, only a single methionine residue appeared to be essential for activity, implying that gene 12 may have a modular array of organization similar to that of VP16. However, fusion of the gene 12 C terminus to a truncated form of VP16, which contained the complex formation domain, did not restore activity to the HSV-1 protein. These data demonstrate that the EHV-1 immediate-early transactivator may not be functionally colinear with VP16, with transactivation requiring both the C terminus and another region(s) present within the N-terminal portion.     

Expression and function of the equine herpesvirus 1 virion-associated host shutoff homolog.

The ability of herpes simplex virus types 1 and 2 (HSV-1 and HSV-2, respectively) to repress host cell protein synthesis early in infection has been studied extensively and found to involve the activities of the UL41 gene product, the virion-associated host shutoff (vhs) protein. To date, UL41 homologs have been identified in the genomes of three other alphaherpesviruses: equine herpesvirus 1 (EHV-1), varicella-zoster virus, and pseudorabies virus, but very little is known about the putative products of these homologous genes. Our earlier observations that no rapid early host protein shutoff occurred in EHV-1-infected cells led us to test EHV-1 vhs activity more thoroughly and to examine the expression and function of the EHV-1 UL41 homolog, ORF19. In the present study, the effects of EHV-1 and HSV-1 infections on cellular protein synthesis and mRNA degradation were compared at various multiplicities of infection in several cell types under an actinomycin D block. No virion-associated inhibition of cellular protein synthesis or vhs-induced cellular mRNA degradation was detected in cells infected with any of three EHV-1 strains (Ab4, KyA, and KyD) at multiplicities of infection at which HSV-1 strain F exhibited maximal vhs activity. However, further analyses revealed that (i) the EHV-1 vhs homolog gene, ORF19, was transcribed and translated into a 58-kDa protein in infected cells; (ii) the ORF19 protein was packaged into viral particles in amounts detectable in Western blots (immunoblots) with monoclonal antibodies; (iii) in cotransfection vhs activity assays, transiently-expressed ORF19 protein had intrinsic vhs activity comparable to that of wild-type HSV-1 vhs; and (iv) this intrinsic vhs activity was ablated by in vitro site-directed mutations in which either the functionally inactive HSV-1 vhs1 UL41 mutation (Thr at position 214 replaced by Ile [Thr-214-->Ile]) was recreated within ORF19 or two conserved residues within the putative poly(A) binding region of the ORF19 sequence were altered (Tyr-190, 192-->Phe). From these results we conclude that EHV-1's low vhs activity in infected cells is not a reflection of the ORF19 protein's intrinsic vhs activity but may be due instead to the amount of ORF19 protein associated with viral particles or to modulation of ORF19 protein's intrinsic activity by another viral component(s).     

Repression of gene expression upon infection of cells with herpes simplex virus type 1 mutants impaired for immediate-early protein synthesis.

Herpes simplex virus type 1 (HSV-1) mutants defective in immediate-early (IE) gene expression do not readily enter productive replication after infection of tissue culture cells. Instead, their genomes are retained in a quiescent, nonreplicating state in which the production of viral gene products cannot be detected. To investigate the block to virus replication, we used the HSV-1 triple mutant in1820K, which, under appropriate conditions, is effectively devoid of the transactivators VP16 (a virion protein), ICP0, and ICP4 (both IE proteins). Promoters for the HSV-1 IE ICP0 gene or the human cytomegalovirus (HCMV) major IE gene, cloned upstream of the Escherichia coli lacZ coding sequences, were introduced into the in1820K genome. The regulation of these promoters and of the endogenous HSV-1 IE promoters was investigated upon conversion of the virus to a quiescent state. Within 24 h of infection, the ICP0 promoter became much less sensitive to transactivation by VP16 whereas the same element, when used to transform Vero cells, retained its responsiveness. The HCMV IE promoter, which is not activated by VP16, also became less sensitive to the HCMV functional homolog of VP16. Both elements remained available for transactivation by HSV-1 IE proteins at 24 h postinfection, showing that the in1820K genome was not irreversibly inactivated. The promoters controlling the HSV-1 ICP4, ICP22, and ICP27 genes also became essentially unresponsive to transactivation by VP16. The ICP0 promoter was induced when hexamethylene bisacetamide was added to cultures at the time of infection, but the response to this agent was also lost by 24 h after infection. Therefore, promoter elements within the HSV-1 genome are actively repressed in the absence of IE gene expression, and repression is not restricted specifically to HSV-1 IE promoters.     

Dominance of virus over host factors in cross-species activation of human cytomegalovirus early gene expression

Human cytomegalovirus (HCMV) exhibits a highly restricted host range. In this study, we sought to examine the relative significance of host and viral factors in activating early gene expression of the HCMV UL54 (DNA polymerase) promoter in murine cells. Appropriate activation of the UL54 promoter at early times is essential for viral DNA replication. To study how the HCMV UL54 promoter is activated in murine cells, a transgenesis system based on yeast artificial chromosomes (YACs) was established for HCMV. A 178-kb YAC, containing a subgenomic fragment of HCMV encompassing the majority of the unique long (UL) region, was constructed by homologous recombination in yeast. This HCMV YAC backbone is defective for viral growth and lacks the major immediate-early (IE) gene region, thus permitting the analysis of essential cis-acting sequences when complemented in trans. To quantitatively measure the level of gene expression, we generated HCMV YACs containing a luciferase reporter gene inserted downstream of either the UL54 promoter or, as a control for late gene expression, the UL86 promoter, which directs expression of the major capsid protein. To determine the early gene activation pathway, point mutations were introduced into the inverted repeat 1 (IR1) element of the UL54 promoter of the HCMV YAC. In the transgenesis experiments, HCMV YACs and derivatives generated in yeast were introduced into NIH 3T3 murine cells by polyethylene glycol-mediated fusion. We found that infection of YAC, but not plasmid, transgenic lines with HCMV was sufficient to fully recapitulate the UL54 expression program at early times of infection, indicating the importance of remote regulatory elements in influencing regulation of the UL54 promoter. Moreover, YACs containing a mutant IR1 in the UL54 promoter led to reduced ( approximately 30-fold) reporter gene expression levels, indicating that HCMV major IE gene activation of the UL54 promoter is fully permissive in murine cells. In comparison with HCMV, infection of YAC transgenic NIH 3T3 lines with murine cytomegalovirus (MCMV) resulted in lower (more than one order of magnitude) efficiency in activating UL54 early gene expression. MCMV is therefore not able to fully activate HCMV early gene expression, indicating the significance of virus over host determinants in the cross-species activation of key early gene promoters. Finally, these studies show that YAC transgenesis can be a useful tool in functional analysis of viral proteins and control of gene expression for large viral genomes.     

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.     

Varicella-zoster virus open reading frame 10 protein, the herpes simplex virus VP16 homolog, transactivates herpesvirus immediate-early gene promoters.

The varicella-zoster virus (VZV) open reading frame 10 (ORF10) protein is the homolog of the herpes simplex virus type 1 (HSV-1) protein VP16. These are two virion tegument proteins that have extensive amino acid sequence identity in their amino-terminal and middle domains. ORF10, however, lacks the acidic carboxy terminus which is critical for transactivation by VP16. Earlier studies showed that VZV ORF10 does not form a tertiary complex with the TAATGARAT regulatory element (where R is a purine) with which HSV-1 VP16 interacts, suggesting that ORF10 may not have transactivating ability. Using transient-expression assays, we show that VZV ORF10 is able to transactivate VZV immediate-early (IE) gene (ORF62) and HSV-1 IE gene (ICP4 and ICP0) promoters. Furthermore, cell lines stably expressing ORF10 complement the HSV-1 mutant in1814, which lacks the transactivating function of VP16, and enhance the de novo synthesis of infectious virus following transfection of HSV-1 virion DNA. These results indicate that ORF10, like its HSV-1 homolog VP16, is a transactivating protein despite the absence of sequences similar to the VP16 carboxy-terminal domain. The transactivating function of the VZV ORF10 tegument protein may be critical for efficient initiation of viral infection.     

单纯疱疹病毒2型衣壳支架蛋白ICP35原核表达载体的构建及其表达特性分析

本研究旨在构建单纯疱疹病毒2型(herpes simplex virus type 2,HSV-2)衣壳支架蛋白ICP35的原核表达载体,并分析其在HSV-2增殖中的表达特性。以HSV-2基因组DNA为模板,采用聚合酶链反应(polymerase chain reaction,PCR)扩增HSV-2 ICP35的编码基因UL26.5,并克隆至原核表达载体pET-32a(＋),转化大肠埃希菌BL21(DE3)进行诱导表达,将纯化的重组ICP35免疫家兔后获得抗体,采用免疫荧光检测ICP35在HSV-2增殖中的表达特性。结果显示,HSV-2 UL26.5基因的PCR产物大小约为1 065 bp,原核表达重组蛋白的相对分子质量约为6.3×10⁴,免疫家兔的血清抗体可特异性识别HSV-2 ICP35。免疫荧光检测结果显示,HSV-2 ICP35可在感染后8 h出现于细胞核周围,12 h表达量进一步增加并向细胞核内聚集,16 h后在细胞核、细胞质内均可检测到聚集成斑点状的衣壳支架蛋白。结果表明,HSV-2 ICP35原核表达载体的成功构建及对其在HSV-2增殖中表达特性的分析,将为研究UL26.5基因的功能、蛋白相互作用、病毒与宿主的相互作用及筛选药物靶标等奠定基础。     

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.