Yiyang Xu

A Kaposi's Sarcoma-Associated Herpesvirus/Human Herpesvirus 8 ORF50 Deletion Mutant Is Defective for Reactivation of Latent Virus and DNA Replication

ABSTRACT Kaposis sarcoma-associated herpesvirus (also called human herpesvirus type 8 [HHV8]) latently infects a number of cell types. Reactivation of latent virus can occur by treatment with the phorbol ester tetradecanoyl phorbol acetate (TPA) or with the transfection of plasmids expressing the lytic switch activator protein K-Rta, the gene product of ORF50. K-Rta expression is sufficient for the activation of the entire lytic cycle and the transactivation of viral genes necessary for DNA replication. In addition, recent evidence has suggested that K-Rta may participate directly in the initiation of lytic DNA synthesis. We have now generated a recombinant HHV8 bacterial artificial chromosome (BAC) with a large deletion within the ORF50 locus. This BAC, BAC36Δ50, failed to produce infectious virus upon treatment with TPA and was defective for DNA synthesis. Expression of K-Rta in trans in BAC36Δ50-containing cells was able to abolish both defects. Real-time PCR revealed that K-bZIP, ORF40/41, and K8.1 were not expressed when BAC36Δ50-containing cells were induced with TPA. However, the mRNA levels of ORF57 were over fivefold higher in TPA-treated BAC36Δ50-containing cells than those observed in similarly treated wild-type BAC-containing cells. In addition, immunohistochemical analysis showed that while the latency-associated nuclear antigen (LANA) was expressed in the mutant BAC-containing cells, ORF59 and K8.1 expression was not detected in TPA-induced BAC36Δ50-containing cells. These results showed that K-Rta is essential for lytic viral reactivation and transactivation of viral genes contributing to DNA replication.

Kaposi's sarcoma-associated herpesvirus (human herpesvirus 8) contains two functional lytic origins of DNA replication.

ABSTRACT We used a transient-transfection replication assay to identify two functional copies of the human herpesvirus 8 (HHV8) lytic origin of DNA replication (oriLyt). BCLB-1 cells were transfected with HHV8 subgenomic fragments containing the putative lytic origin along with a plasmid expressing viral transactivator open reading frame (ORF) 50. The HHV8 left-end oriLyt (oriLyt-L) lies between ORFs K4.2 and K5 and is composed of a region encoding various transcription factor binding sites and an A+T-rich region and a G+C repeat region. The right-end oriLyt (oriLyt-R) maps between ORF 69 and vFLIP, a region similar to the RRV oriLyt, and is an inverted duplication of oriLyt-L.

Human Cytomegalovirus DNA Replication Requires Transcriptional Activation via an IE2- and UL84-Responsive Bidirectional Promoter Element within oriLyt

ABSTRACT Amplification of the human cytomegalovirus (HCMV) lytic origin (oriLyt) in human fibroblasts is dependent upon six core replication proteins and UL84, IE2, and UL36-38. Using a telomerase-immortalized human fibroblast cell line (T-HFs), oriLyt-dependent DNA replication no longer required the gene products of UL36-38. To determine the role of IE2 in DNA replication in human fibroblasts, we examined potential IE2-binding sites within HCMV oriLyt. We now show that a strong bidirectional promoter (oriLytPM) (nucleotides 91754 to 92030) is located in the previously identified core region of the origin and is required for efficient amplification of oriLyt. It was determined that a 14-bp novel DNA motif (oriLyt promoter activation element), which was initially identified as a binding element for the immediate-early protein IE2, was essential for oriLytPM activity. In Vero cells the oriLytPM was constitutively active and strongly repressed by IE2, but it was reactivated by UL84. In contrast, transfection of the oriLytPM into human fibroblasts resulted in a very low basal level of promoter activity that was dramatically up-regulated upon infection with HCMV. Cotransfection assays demonstrated that the transfection of UL84 along with IE2 transactivated the oriLytPM in human fibroblasts. Further activation was observed upon cotransfection of the set of plasmids expressing the entire replication complex. Efficient oriLyt amplification in the absence of IE2 in human fibroblasts was observed by replacing the oriLytPM with the simian virus 40 early promoter. Under these conditions, however, UL84 was still required for amplification of oriLyt. These results suggest that the mechanism of initiation of HCMV lytic replication in part involves transcriptional activation.

Human Cytomegalovirus UL84 Insertion Mutant Defective for Viral DNA Synthesis and Growth

ABSTRACT Human cytomegalovirus (HCMV) UL84 is required for oriLyt-dependent DNA replication, and evidence from transient transfection assays suggests that UL84 directly participates in DNA synthesis. In addition, because of its apparent interaction with IE2, UL84 is implicated as a possible regulatory protein. To address the role of UL84 in the context of the viral genome, we generated a recombinant HCMV bacterial artificial chromosome (BAC) construct that did not express the UL84 gene product. This construct, BAC-IN84/Ep, displayed a null phenotype in that it failed to produce infectious virus after transfection into human fibroblast cells, whereas a revertant virus readily produced viral plaques and, subsequently, infectious virus. Real-time quantitative PCR showed that BAC-IN84/Ep was defective for DNA synthesis in that no increase in the accumulation of viral DNA was observed in transfected cells. We were unable to complement BAC-IN84/Ep in trans; however, oriLyt-dependent DNA replication was observed by the cotransfection of UL84 and BAC-IN84/Ep. An analysis of viral mRNA by real-time PCR indicated that, even in the absence of DNA synthesis, all representative kinetic classes of genes were expressed in cells transfected with BAC-IN84/Ep. The detection of UL44 and IE2 by immunofluorescence in BAC-IN84/Ep-transfected cells showed that these proteins failed to partition into replication compartments, indicating that UL84 expression is essential for the formation of these proteins into replication centers within the context of the viral genome. These results show that UL84 provides an essential DNA replication function and influences the subcellular localization of other viral proteins.

Human Cytomegalovirus UL84 Interacts with an RNA Stem-Loop Sequence Found within the RNA/DNA Hybrid Region of oriLyt

ABSTRACT Human cytomegalovirus (HCMV) lytic DNA replication is initiated at the complex cis-acting oriLyt region, which spans nearly 3 kb. DNA synthesis requires six core proteins together with UL84 and IE2. Previously, two essential regions were identified within oriLyt. Essential region I (nucleotides [nt] 92209 to 92573) can be replaced with the constitutively active simian virus 40 promoter, which in turn eliminates the requirement for IE2 in the origin-dependent transient-replication assay. Essential region II (nt 92979 to 93513) contains two elements of interest: an RNA/DNA hybrid domain and an inverted repeat sequence capable of forming a stem-loop structure. Our studies now reveal for the first time that UL84 interacts with a stem-loop RNA oligonucleotide in vitro, and although UL84 interacted with other nucleic acid substrates, a specific interaction occurred only with the RNA stem-loop. Increasing concentrations of purified UL84 produced a remarkable downward-staircase pattern, which is not due to a nuclease activity but is dependent upon the presence of secondary structures, suggesting that UL84 modifies the conformation of the RNA substrate. Cross-linking experiments show that UL84 possibly changes the conformation of the RNA substrate. The addition of purified IE2 to the in vitro binding reaction did not affect binding to the stem-loop structure. Chromatin immunoprecipitation assays performed using infected cells and purified virus show that UL84 is bound to oriLyt in a region adjacent to the RNA/DNA hybrid and the stem-loop structure. These results solidify UL84 as the potential initiator of HCMV DNA replication through a unique interaction with a conserved RNA stem-loop structure within oriLyt.

Human Cytomegalovirus UL84 Oligomerization and Heterodimerization Domains Act as Transdominant Inhibitors of oriLyt-Dependent DNA Replication: Evidence that IE2-UL84 and UL84-UL84 Interactions Are Required for Lytic DNA Replication

ABSTRACT Human cytomegalovirus (HCMV) UL84 encodes a 75-kDa protein required for oriLyt-dependent DNA replication and interacts with IE2 in infected and transfected cells. UL84 localizes to the nucleus of transfected and infected cells and is found in viral replication compartments. In transient assays it was shown that UL84 can interfere with the IE2-mediated transactivation of the UL112/113 promoter of HCMV. To determine whether UL84 protein-protein interactions are necessary for lytic DNA synthesis, we purified UL84 and used this protein to generate a monoclonal antibody. Using this antibody, we now show that UL84 forms a stable interaction with itself in vivo. The point of self-interaction maps to a region of the protein between amino acids 151 and 200, a domain that contains a series of highly charged amino acid residues. Coimmunoprecipitation assays determined that UL84 interacts with a protein domain present within the first 215 amino acids of IE2. We also show that an intact leucine zipper domain of UL84 is required for a stable interaction with IE2 and UL84 leucine zipper mutants fail to complement oriLyt-dependent DNA replication. UL84 leucine zipper mutants no longer interfere with IE2-mediated transactivation of the UL112/113 promoter, confirming that the leucine zipper is essential for a functional interaction with IE2. In addition, we demonstrate that both the leucine zipper and oligomerization domains of UL84 can act as transdominant-negative inhibitors of lytic replication in the transient assay, strongly suggesting that both an IE2-UL84 and a UL84-UL84 interaction are required for DNA synthesis.

Evaluation of the Lytic Origins of Replication of Kaposi's Sarcoma-Associated Virus/Human Herpesvirus 8 in the Context of the Viral Genome

ABSTRACT The lytic origins of DNA replication for human herpesvirus 8 (HHV8), oriLyt-L and oriLyt-R, are located between open reading frames K4.2 and K5 and ORF69 and vFLIP, respectively. These lytic origins were elucidated using a transient replication assay. Although this assay is a powerful tool for identifying many herpesvirus lytic origins, it is limited in its ability to evaluate the activity of replication origins in the context of the viral genome. To this end, we investigated the ability of a recombinant HHV8 bacterial artificial chromosome (BAC) to replicate in the absence of oriLyt-R, oriLyt-L, or both oriLyt regions. We generated the HHV8 BAC recombinants (BAC36-ΔOri-R, BAC36-ΔOri-L, and BAC36-ΔOri-RL), which removed one or all of the identified lytic origins. An evaluation of these recombinant BACs revealed that oriLyt-L was sufficient to propagate the viral genome, whereas oriLyt-R alone failed to direct the amplification of viral DNA.

Human cytomegalovirus UL84 localizes to the cell nucleus via a nuclear localization signal and is a component of viral replication compartments.

ABSTRACT The UL84 open reading frame encodes a protein that is required for origin-dependent DNA replication and interacts with the immediate-early protein IE2 in lytically infected cells. Transfection of UL84 expression constructs showed that UL84 localized to the nucleus of transfected cells in the absence of any other viral proteins and displayed a punctate speckled fluorescent staining pattern. Cotransfection of all the human cytomegalovirus replication proteins and oriLyt, along with pUL84-EGFP, showed that UL84 colocalized with UL44 (polymerase accessory protein) in replication compartments. Experiments using infected human fibroblasts demonstrated that UL84 also colocalized with UL44 and IE2 in viral replication compartments in infected cells. A nuclear localization signal was identified using plasmid constructs expressing truncation mutants of the UL84 protein in transient transfection assays. Transfection assays showed that UL84 failed to localize to the nucleus when 200 amino acids of the N terminus were deleted. Inspection of the UL84 amino acid sequence revealed a consensus putative nuclear localization signal between amino acids 160 and 171 (PEKKKEKQEKK) of the UL84 protein.

Overexpression of the Kaposi's Sarcoma-Associated Herpesvirus Transactivator K-Rta Can Complement a K-bZIP Deletion BACmid and Yields an Enhanced Growth Phenotype

ABSTRACT Kaposis sarcoma-associated herpesvirus/human herpesvirus 8 (HHV8) ORF50 encodes a transactivator, K-Rta, which functions as the switch from latent to lytic virus replication. K-bZIP interacts with K-Rta and can repress its transactivation activity for some viral promoters. Both K-Rta and K-bZIP are required for origin-dependent DNA replication. To determine the role of K-bZIP in the context of the viral genome, we generated a recombinant HHV8 bacterial artificial chromosome (BAC) with a deletion in the K-bZIP open reading frame. This BACmid, BAC36ΔK8, displayed an enhanced growth phenotype with respect to virus production and accumulation of virus-encoded mRNAs measured by real-time PCR when K-Rta was used to induce the virus lytic cycle. Conversely, induction of the virus lytic cycle using tetradecanoyl phorbol acetate/n-butyrate resulted in no virus production and an aberrant gene expression pattern from BAC36ΔK8-containing cells compared to wild-type (wt) BAC. This null virus phenotype was efficiently complemented by the expression of K-bZIP in trans, restoring virus production to wt BAC levels. Immunofluorescence staining revealed that subcellular localization of K-Rta was unchanged; however, a disruption of LANA subcellular localization was observed in cells harboring BAC36ΔK8, suggesting that K-bZIP influences LANA localization. Coimmunoprecipitation experiments confirmed that K-bZIP interacts with LANA in BCBL-1 cells and in cotransfection assays. Lastly, the chromatin immunoprecipitation assay revealed that, in an environment where K-Rta is overexpressed and in the absence of K-bZIP, K-Rta binds to CAAT enhancer binding protein α sites within oriLyt, suggesting that it is K-Rta that supplies an essential replication function and that K-bZIP may serve to augment or facilitate the interaction of K-Rta with oriLyt.