Separation of Epstein-Barr Virus DNA from Large Chromosomal DNA in Non-virus-producing Cells

AT least four established human lymphocyte cell lines, one that originates from a Burkitt's lymphoma and the others from normal persons, contain Epstein-Barr virus (EBV) genome¹. These cells show no viral antigens by immunofluorescence tests nor do they produce virus particles. We are examining one of the four cell lines, Raji (cells from a Burkitt's lymphoma), in more detail. The DNA isolated from purified Raji chromosomes contains as much virus genome as the DNA extracted from whole cells (65 genome equivalents per cell)¹. The viral DNA therefore seems to be in the chromosomes. This result, however, does not necessarily indicate that the viral DNA is physically integrated into chromosomal DNA. The following experiments suggest that the EBV DNA in Raji cells is not covalently linked to the large chromosomal DNA, although the number of viral genomes per cell remains constant during passage. The results do not, however, exclude the possibility that small fragments of cell DNA are bonded to the viral DNA. The data also indicate that EBV DNA in Raji cells exists in strands of complete or nearly complete size.     

Characterization of Epstein–Barr virus reactivation in a modeled spaceflight system

Epstein–Barr virus (EBV) is the causative agent of mononucleosis and is also associated with several malignancies, including Burkitt's lymphoma, Hodgkin's lymphoma, and nasopharyngeal carcinoma, among others. EBV reactivates during spaceflight, with EBV shedding in saliva increasing to levels ten times those observed pre‐and post‐flight. Although stress has been shown to increase reactivation of EBV, other factors such as radiation and microgravity have been hypothesized to contribute to reactivation in space. We used a modeled spaceflight environment to evaluate the influence of radiation and microgravity on EBV reactivation. BJAB (EBV‐negative) and Raji (EBV‐positive) cell lines were assessed for viability/apoptosis, viral antigen and reactive oxygen species expression, and DNA damage and repair. EBV‐infected cells did not experience decreased viability and increased apoptosis due to modeled spaceflight, whereas an EBV‐negative cell line did, suggesting that EBV infection provided protection against apoptosis and cell death. Radiation was the major contributor to EBV ZEBRA upregulation. Combining modeled microgravity and radiation increased DNA damage and reactive oxygen species while modeled microgravity alone decreased DNA repair in Raji cells. Additionally, EBV‐infected cells had increased DNA damage compared to EBV‐negative cells. Since EBV‐infected cells do not undergo apoptosis as readily as uninfected cells, it is possible that virus‐infected cells in EBV seropositive individuals may have an increased risk to accumulate DNA damage during spaceflight. More studies are warranted to investigate this possibility. J. Cell. Biochem. 114: 616–624, 2013. © 2012 Wiley Periodicals, Inc.     

Integrated viral DNA sequences in Epstein-Barr virus-converted human lymphoma lines.

Most human lymphoid cell lines contain multiple copies of circular, nonintegrated Epstein-Barr virus (EBV) DNA molecules as well as viral DNA sequences with properties of integrated DNA. The physical state of the EBV DNA in a human lymphoma line that only contains one virus genome equivalent per cell has now been studied by three different methods, neutral CsCl density gradient centrifugation, actinomycin D-CsCl gradient centrifugation, and Hirt fractionation. This cell line, AW-Ramos, has been obtained by EBV infection in vitro of the apparently EBV-negative Ramos lymphoma line. The results indicate that the EBV DNA in AW-Ramos is present exclusively in a linearly integrated form. Similar data were obtained with two other EBV-converted sublines of Ramos cells.     

Size of the intracellular circular Epstein-Barr virus DNA molecules in infectious mononucleosis-derived human lymphoid cell lines.

The size of non-integrated circular Epstein-Barr virus (EBV) DNA molecules isolated from seven different human lymphoblastoid cell lines of infectious mononucleosis origin has been determined by sedimentation analysis and by direct contour length measurements on electron micrographs. Six lines had intracellular circular EBV genomes of the same size as linear virion DNA molecules. The seventh line, established with the B95-8 strain of EBV, was the only one found to have circular EBV DNA molecules significantly smaller than virion DNA. The data show that intracellular EBV DNA circles of reduced size do not generally occur in infectious mononucleosis-derived cell lines.     

Evidence for integrated EBV genomes in Raji cellular DNA.

Human lymphoid cell lines cannot be grown in long-term tissue culture, as a rule, unless the cells have been transformed by Epstein-Barr virus (EBV). The latent EBV DNA in established cell lines, is mainly present as free covalently closed circles but viral DNA sequences with properties of integrated DNA also seem to be present. We have extended the studies on the physical state of the EB viral DNA sequences in the cell line Raji which appear at a lower density than that for free EB viral DNA during fractionation on CsCl density gradients. In such material a novel EcoRI EBV DNA fragment is present, which hybridizes to viral sequences homologous to EcoRI A. This fragment is not present in free covalently closed circular EBV DNA. When this EcoRI fragment is further analysed with HindIII a smaller fragment than expected, which contains BamHI W sequences, is detected. The demonstration of this HindIII fragment and its characteristics as a joint, viral-host chromosome fragment will be discussed.     

Development of a novel inducer for EBV lytic therapy

Epstein-Barr virus (EBV) is a human herpesvirus that infects over 90% of the world's population that persists as a latent infection in various lymphoid and epithelial malignancies. The total number of EBV associated malignancies is estimated to exceed 200,000 new cancers per year. Current chemotherapeutic treatments of EBV-positive cancers include broad-spectrum cytotoxic drugs that ignore the EBV positive status of tumors and have limited safety and selectivity. In an effort to develop new and more efficacious molecules for inducing EBV reactivation, we have developed high-throughput screening assays to identify a class of small molecules (referred to as the C60 series) that efficiently activate the EBV lytic cycle in multiple latency types, including lymphoblastoid and nasopharyngeal carcinoma cell lines. In this paper we report our preliminary structure activity relationship studies and demonstrate reactivation of EBV in the SNU719 gastric carcinoma mouse model and the AGS-Akata gastric carcinoma mouse model.     

Telomerase Activity Impacts on Epstein-Barr Virus Infection of AGS Cells

The Epstein-Barr virus (EBV) is transmitted from host-to-host via saliva and is associated with epithelial malignancies including nasopharyngeal carcinoma (NPC) and some forms of gastric carcinoma (GC). Nevertheless, EBV does not transform epithelial cells in vitro where it is rapidly lost from infected primary epithelial cells or epithelial tumor cells. Long-term infection by EBV, however, can be established in hTERT-immortalized nasopharyngeal epithelial cells. Here, we hypothesized that increased telomerase activity in epithelial cells enhances their susceptibility to infection by EBV. Using HONE-1, AGS and HEK293 cells we generated epithelial model cell lines with increased or suppressed telomerase activity by stable ectopic expression of hTERT or of a catalytically inactive, dominant negative hTERT mutant. Infection experiments with recombinant prototypic EBV (rB95.8), recombinant NPC EBV (rM81) with increased epithelial cell tropism compared to B95.8, or recombinant B95.8 EBV with BZLF1-knockout that is not able to undergo lytic replication, revealed that infection frequencies positively correlate with telomerase activity in AGS cells but also partly depend on the cellular background. AGS cells with increased telomerase activity showed increased expression mainly of latent EBV genes, suggesting that increased telomerase activity directly acts on the EBV infection of epithelial cells by facilitating latent EBV gene expression early upon virus inoculation. Thus, our results indicate that infection of epithelial cells by EBV is a very selective process involving, among others, telomerase activity and cellular background to allow for optimized host-to-host transmission via saliva.     

5-杂氮-2′-脱氧胞苷诱导鼻咽癌细胞株Syk基因启动子去甲基化的研究

利用5-杂氮-2′-脱氧胞苷（5-aza-2′-deoxycytidine,5-aza-CdR）处理体外培养的鼻咽癌细胞株CNE-1、CNE-2及永生化非癌性人鼻咽上皮细胞株NP-69,采用BS-PCR、Q-RT-PCR及Westernblot方法分别检测经5μmol/L的5-aza-CdR处理前后,各细胞株中Syk基因启动子甲基化状况及SykmRNA和蛋白质表达情况。探讨去甲基化药物5-杂氮-2′-脱氧胞苷（5-aza-CdR）对鼻咽癌细胞株中脾酪氨酸激酶（spleen tyrosine kinase,Syk）启动子甲基化水平及其表达的影响。结果显示,Syk基因启动子甲基化水平与鼻咽癌细胞分化程度呈负相关,两种鼻咽癌细胞株的Syk mRNA和蛋白质表达水平显著低于NP-69细胞（P〈0.01）;经5-aza-CdR处理后两种鼻咽癌细胞株的Syk基因启动子甲基化水平降低,Syk mRNA及蛋白质表达升高（P〈0.05）;高分化鼻咽癌细胞株对药物敏感性高于低分化鼻咽癌细胞株（P〈0.01）。由此可见,两种鼻咽癌细胞株中存在不同程度的Syk基因启动子甲基化状态,5-aza-CdR能有效逆转鼻咽癌细胞株Syk基因启动子的甲基化状态,升高Syk mRNA及蛋白质表达,同时鼻咽癌细胞分化程度越高恢复Syk基因表达的比率越高。     

Amplification of Epstein-Barr virus (EBV) DNA by superinfection with a strain of EBV derived from nasopharyngeal carcinoma.

Epstein-Barr virus (EBV) from a nasopharyngeal carcinoma (NPC) hybrid cell line (NPC-KT) lacking defective viral DNA molecules superinfected Raji cells and induced EBV early antigens (EA), as did virus from P3HR-1 cells, which contained defective molecules. The EBV polypeptides induced by NPC-KT appeared to be identical to those induced by P3HR-1 virus. The ability of NPC-KT virus to induce EA was enhanced more than 10-fold by treatment of superinfected cells with dimethyl sulfoxide; however, dimethyl sulfoxide treatment did not enhance superinfection by P3HR-1 virus. After infection, DNA synthesis of both the superinfecting NPC-KT virus and the resident Raji viral genome was induced. In addition to amplified Raji EBV episomal DNA, a fused terminal fragment of NPC-KT viral DNA was detected. The detection of fused terminal DNA fragments suggests that the superinfecting virion DNA either circularizes or polymerizes after superinfection and is possibly amplified through circular or concatenated replicative intermediates.     

Induction and rejoining of DNA double-strand breaks in human cervix carcinoma cell lines of differing radiosensitivity

Five recently established cell lines of human carcinoma of the cervix of varying radiosensitivity have been used to determine whether the induction or rejoining of DNA double-strand breaks (dsb) shows any correlation with radiosensitivity or radiation recovery capacity. Double-strand DNA breaks have been measured using neutral filter elution at pH 9.6. The number of breaks induced immediately after irradiation with doses of 10 to 40 Gy 60Co gamma rays appeared to show some correlation with radiosensitivity particularly after 10 Gy; the two more radiosensitive lines incurred more breaks than the more radioresistant lines. In addition, the shape of the induction curve with dose was linear for the two sensitive lines but curvilinear for the resistant lines. Despite the dose scales being different, this mirrored their respective cell survival curve shapes. After 30 or 50 Gy irradiation, rejoining of breaks appeared to be rapid and almost complete within 60 min at 37 degrees C for the three resistant lines. However, for the sensitive lines, one line (HX160c) in particular exhibited a reduced rate of dsb rejoining. In addition, a residual level of dsb was present in this line even after allowing rejoining for 3 h. While induction and rejoining of DNA dsb therefore appears to be a factor in determining radiosensitivity, at doses relevant to cellular survival (up to 10 Gy), the greater induction of DNA dsb in radiosensitive lines may play a significant role in determining the cellular response to ionizing radiation.     

The average number of molecules of Epstein-Barr nuclear antigen 1 per cell does not correlate with the average number of Epstein-Barr virus (EBV) DNA molecules per cell among different clones of EBV-immortalized cells.

Epstein-Barr nuclear antigen 1 (EBNA-1) is the only viral protein required to support latent replication of Epstein-Barr virus (EBV). To assess the likelihood that EBNA-1 regulates the amount of EBV DNA in a cell, we measured the average numbers of EBNA-1 molecules and EBV DNA molecules per cell in different clones of cells. The amount of EBNA-1 protein present in recently established lymphoblastoid cell lines was measured with affinity-purified anti-EBNA-1 antibodies, and viral DNA was measured by nucleic acid hybridization. The average levels of EBNA-1 protein varied little between these cell lines, whereas the average amount of viral DNA present varied substantially; consequently, these numbers were not correlated. There is no apparent relationship between amounts of EBNA-1 and viral DNA.     

EB病毒DNA聚合酶基因的表达与纯化鼻咽癌病人诊断中的应用

以Ｅｐｓｔｅｉｎ－Ｂａｒｒ病毒（ＥＢＶ）ＤＮＡ聚合酶为抗原,建立了简便、快速、敏感和特异的鼻咽癌诊断方法。构建原表达载体ｐＲＳＥＴ－ＤＮＡ聚合酶及其亚克隆ＰＲＳＥＴ－Ａ１和ＢＬ２１（ＤＥ３）中表达的产物,经Ｗｅｓｔｅｒｎ－ｂｌｏｔ检测其抗原性并用于检测鼻咽癌（ｎａｓｏｐｈａｒｙｎｇｅａｌ ｃａｒｃｉｎｏｍａ,ＮＰＣ）病人血清中的抗体。在ＤＰＣ病人血清中存在抗ＥＢ病毒ＤＮＡ聚合酶的ＩｇＧ抗体,并证明     

Use of plasma Epstein-Barr virus DNA monitoring as a tumor marker in follow-up of patients with nasopharyngeal carcinoma: preliminary results and report of two cases

Recent studies suggest that plasma Epstein-Barr virus (EBV) DNA may reflect tumor burden in patients with nasopharyngeal cancer. A prospective study was initiated to investigate this correlation in 125 patients (34 pretreatment [Group A], 78 in remission [Group B] and 13 relapsed [Group C]) and 19 healthy controls. In group A, EBV DNA was detected in plasma samples of 24 (70%) patients. In Group B, EBV DNA was detected in 7 patients (range 77-13,731 copies/mL) and further imaging in all but one of these patients revealed active disease confirmed by ultrasound-guided fine-needle biopsy. There was only one false-positive case; this patient is currently under follow-up. Here we describe 2 of the 7 patients with detectable plasma EBV DNA in whom recurrence was documented by PET scan during follow-up. Our results showed that in group B the positive predictive value of quantitative analysis of plasma EBV DNA was 85%. Quantitative analysis of EBV DNA in plasma seems to become an integral part of screening, staging, monitoring, and prediction of relapse in patients with nasopharyngeal carcinoma. However, previous studies cannot be considered definitive and more reports on the use of this technique are urgently needed from both endemic and non-endemic regions.     

The oncogenic role of Epstein–Barr virus‐encoded microRNAs in Epstein–Barr virus‐associated gastric carcinoma

Epstein–Barr virus (EBV) infection is detected in various epithelial malignancies, such as nasopharyngeal carcinoma (NPC) and gastric cancer (GC). EBV comprises some unique molecular features and encodes viral genes and microRNAs (miRNAs) by its own DNA sequence. EBV genes are required to maintain latency and contribute to oncogenic property. miRNAs encoded by EBV have been shown to contribute to initiation and progression of EBV‐related malignancies. By a number of genomic profiling studies, some EBV miRNAs were confirmed to be highly expressed in EBV‐associated gastric cancer (EBVaGC) samples and cell lines. The majority host targets of the EBV miRNAs are important for promoting cell growth and inhibiting apoptosis, facilitating cell survival and immune evasion. However, the integrated molecular mechanisms related to EBV miRNAs remain to be investigated. In this review, we summarized the crucial role of EBV miRNAs in epithelial malignancies, especially in EBVaGC. Collectively, EBV miRNAs play a significant role in the viral and host gene regulation network. Understanding the comprehensive potential targets and relevant functions of EBV miRNAs in gastric carcinogenesis might provide better clinical translation.     

Induction of Epstein-Barr virus nuclear antigen and DNA synthesis in a human epithelial cell line after Epstein-Barr virus infection.

The association of Epstein-Barr virus (EBV) with nasopharyngeal carcinoma is supported by the presence of EBV genomes in the epithelial elements of the tumor and by elevated antibody titers to EBV-specific antigens in the patients; the levels of these titers are related to the clinical course of the disease. However, since most laboratory data suggest that EBV is a B-lymphotropic virus, it is unclear how the virus becomes associated with the epithelial elements of the nasopharynx. The purpose of the present work was to find a human model system to study this association. A human epithelial line (U) was found that could be directly infected by EBV, and viral functions, the induction of EBV nuclear antigen and cellular DNA synthesis, were demonstrated. The U line was established in 1957 by the late H. J. Van Kooten (Kok-Doorschodt at the University of Utrecht), and although it is no longer diploid, it exhibits density inhibition. When U cells were infected with EBV, EBV nuclear antigen was expressed in 6 to 16% of the cells, 1 and 2 days after infection with B95-8 virus, but not with the P3HR-1 strain. No evidence for virus replication was obtained; immunofluorescence staining for early antigens and virus capsid antigens gave negative results. Quantitative adsorption experiments for EBV indicated that the adsorption capacity of U cells is significant (60% of Raji cells). The present results also demonstrated that infection with the virus overcomes block(s) in cellular DNA synthesis caused by 5-fluorodeoxyuridine. The induction of DNA synthesis was determined by increased incorporation of [3H]thymidine into the cells. The highest level of isotope incorporation was observed at about 15 h after infection and thereafter decreased. Analysis of the induced DNA indicated that it was of cellular origin.     

Proteome profiling of Epstein-Barr virus infected nasopharyngeal carcinoma cell line: identification of potential biomarkers by comparative iTRAQ-coupled 2D LC/MS-MS analysis

Epstein-Barr virus (EBV) has been implicated in the development of nasopharyngeal carcinoma (NPC), a squamous cell carcinoma with high-occurrence in Southeast Asia and southern China. However, the underlying relationship of EBV and NPC squamous cell remains obscure. In this study, we employ a comparative iTRAQ-coupled 2D LC-MS/MS system to analyze the protein profile of NPC cell line upon EBV infection. Based on the proteome data and Western blot validation, 12 proteins were found to be significantly up-regulated and associated with signal transduction, cytoskeleton formation, metabolic pathways and DNA bindings. The interactions among NPC and EBV proteins were further analyzed and protein networks were established. Based on the functions of differentially expressed proteins, a metabolic pathway was proposed to elucidate their relationship in cytoskeleton formation, cell proliferation and apoptosis. Our results suggested a new proteome platform to analyze EBV's role in NPC squamous cell line. And these differentially expressed proteins may hold the promise as potential biomarkers for NPC diagnostics and treatment.     

Repression of DERL3 via DNA methylation by Epstein-Barr virus latent membrane protein 1 in nasopharyngeal carcinoma

Nasopharyngeal carcinoma (NPC) is Epstein-Barr virus (EBV)-associated invasive malignancy. Increasing evidence indicates that epigenetic abnormalities, including DNA methylation, play important roles in the development of NPC. In particular, the EBV principal oncogene, latent membrane protein 1 (LMP1), is considered a key factor in inducing aberrant DNA methylation of several tumour suppressor genes in NPC, although the mechanism remains unclear. Herein, we comprehensively analysed the methylome data of Infinium BeadArray from 51 NPC and 52 normal nasopharyngeal tissues to identify LMP1-inducible methylation genes. Using hierarchical clustering analysis, we classified NPC into the high-methylation, low-methylation, and normal-like subgroups. We defined high-methylation genes as those that were methylated in the high-methylation subgroup only and common methylation genes as those that were methylated in both high- and low-methylation subgroups. Subsequently, we identified 715 LMP1-inducible methylation genes by observing the methylome data of the nasopharyngeal epithelial cell line with or without LMP1 expression. Because high-methylation genes were enriched with LMP1-inducible methylation genes, we extracted 95 high-methylation genes that overlapped with the LMP1-inducible methylation genes. Among them, we identified DERL3 as the most significantly methylated gene affected by LMP1 expression. DERL3 knockdown in cell lines resulted in significantly increased cell proliferation, migration, and invasion. Lower DERL3 expression was more frequently detected in the advanced T-stage NPC than in early T-stage NPC. These results indicate that DERL3 repression by DNA methylation contributes to NPC tumour progression.     

细胞DNA倍体分析和EBERs原位检测在鼻咽癌早期诊断中的应用

目的　探讨鼻咽脱落细胞进行DNA倍体和EB病毒编码RNA (EBERs)检测在鼻咽癌诊断中的应用。方法　对 38例经细胞学诊断为鼻咽癌和 8例为正常的鼻咽细胞涂片分别进行图像分析测定细胞DNA含量和EB病毒EBERs原位杂交检测。结果　与病理细胞学诊断相比 ,DNA异倍体分析和EBERs检测诊断癌的敏感性分别为 5 0 %和 92 %,其特异性均为 10 0 %;其阴性预测值分别为 30 %和 72 %。结论　与EBERs检测相比 ,DNA异倍体分析的诊断敏感性和阴性预测值较低 ,差异具有显著性 (分别为P <0 0 0 1和P <0 0 5 )。证明在鼻咽细胞学涂片应用EB病毒原位杂交检测诊断鼻咽癌优于应用DNA异倍体分析诊断。与细胞DNA图像分析相比 ,EB病毒原位杂交检测具有客观、实验条件简单等优点 ,在鼻咽癌可疑病人的早期诊断和鉴别诊断上具有重要的实用价值。