An efficient method for the rapid establishment of Epstein-Barr virus immortalization of human B lymphocytes

Abstract. Several methods have been developed for the immortalization of B lymphocytes by Epstein-Barr virus (EBV). We developed an efficient method which reduces the time from culture initiation to immortalization and cryopreservation. Two infections of EBV to lymphocytes, and the use of phorbol ester-induced EBV stock significantly improved immortalization efficiency and reduced the time between initiation and immortalization and cryopreservation. The resulting cell bank was used to produce DNA for genetic studies focusing on the genes involved in immune and autistic disorders.     

De novo DNA methylation at nonrandom founder sites 5' from an unmethylated minimal origin of DNA replication in latent Epstein-Barr virus genomes

Latent episomal genomes of Epstein-Barr virus, a human gammaherpesvirus, represent a suitable model system for studying replication and methylation of chromosomal DNA in mammals. We analyzed the methylation patterns of CpG dinucleotides in the latent origin of DNA replication of Epstein-Barr virus using automated fluorescent genomic sequencing of bisulfite-modified DNA samples. We observed that the minimal origin of DNA replication was unmethylated in 8 well-characterized human cell lines or clones carrying latent Epstein-Barr virus genomes as well as in a prototype virus producer marmoset cell line. This observation suggests that unmethylated DNA domains can function as initiation sites or zones of DNA replication in human cells. Furthermore, 5' from this unmethylated region we observed focal points of de novo DNA methylation in nonrandom positions in the majority of Burkitt's lymphoma cell lines and clones studied while the corresponding CpG dinucleotides in viral genomes carried by lymphoblastoid cell lines and marmoset cells were completely unmethylated. Clustering of highly methylated CpG dinucleotides suggests that de novo methylation of unmethylated double-stranded episomal viral genomes starts at discrete founder sites in vivo. This is the first comparative high-resolution methylation analysis of a latent viral origin of DNA replication in human cells.     

Clonal transformation of adult human leukocytes by Epstein-Barr virus.

We have developed a clonal transformation assay for Epstein-Barr virus which uses adult human leukocytes as target cells. The target cells were isolated from Epstein-Barr seronegative donors, and the same donor's cells could be studied repeatedly over long periods of time. When these cells were transformed by Epstein-Barr virus and had proliferated sufficiently to be studied, they had an average cloning efficiency of 3%. Assuming this average cloning efficiency obtains at the onset of transformation, we calculate that transformation by Epstein-Barr virus leads to immortalization maximally of about 1 in 30 of the adult peripheral leukocytes exposed to the virus. Studying the number of colonies transformed as a function of the amount of virus to which the cells are exposed indicates that a single DNA-containing virus particle is sufficient to transform a cell. All of the transformed clones studied harbored viral DNA. This technique will now permit, for the first time, our studying clonal variations in adult peripheral leukocytes transformed by Epstein-Barr virus as a function of input multiplicity of the virus and of the donor's immune status.     

EB病毒潜伏膜蛋白1诱导人鼻咽上皮细胞端粒酶的表达

Telomerase activation has been linked to cell immortalization in vitro and tumorigenicity in vivo. In this study, for the first, we reported that Epstein-Barr virus activated the telomerase activity of human nasopharyngeal epithelial cells in the early stage of immortalization as tested by the PCR-ELISA. The telomerase activity in nasopharyngeal epithelial cells was only observed in presenescent cells. It was implicated that Epstein-Barr virus induced the escape of nasopharyngeal epithelial cells from senescence via the activation of telomerase. We further showed that telomerase activation in infected cells was dependent on the protein level of latent membrane protein 1 (LMP1) encoded by Epstein-Barr virus using a Tetracycline regulatory cell line expressing LMP1, pTet-on-LMP1-HNE2. The activity of telomerase in nasopharyngeal cells was decreased when the protein level of LMP1 was blocked by antisense LMP1 plasmid DNA. And the activity of telmerase was also related to the carboxyl terminus of LMP1. It was implicated that the ability of Epstein-Barr virus to suppress senescence is associated with telomerase activation by LMP1.     

Immortalization of human lymphocytes by fusion with cytoplasts of transformed mouse L cells

Fusion of mouse L929 cytoplasts with human peripheral blood lymphocytes induced lymphocyte proliferation that gave rise to lymphoid cell lines of B and T cell origin with unlimited growth potential. The immortalized cell lines were routinely grown in standard medium supplemented with fetal calf serum. Furthermore these cell lines could be propagated in chemically defined serum-free media. Each establishment of lymphoid cell lines was preceded by a proliferation phase 2 wk after cytoplast/cell fusion, which appears to be a necessary step in the immortalization process. The immortalized cells have a nearly normal human karyotype, do not form colonies in soft agar medium, and are not tumorigenic in nude mice. Cloned B cell lines produced human immunoglobulins of heavy and light chain types. No cross-reaction with DNA of herpes simplex virus, human cytomegalovirus, human T cell leukemia/lymphoma virus I and II, or polyoma virus was detected in the genome of immortalized cell lines by Southern blot hybridization. Furthermore B and T cell lines were established that appear to be free of Epstein-Barr virus genome.     

EB病毒潜伏膜蛋白1诱导人鼻咽上皮细胞端粒酶的表达

上皮细胞逃避老化期是细胞永生化过程中一个重要分子事件,端粒酶活性表达是维持人染色体端粒长度、抑制细胞进入老化期的关键因素之一.我们利用最新的端粒酶PCR-ELISA半定量技术,检测永生化早期阶段人胚鼻咽上皮细胞中端粒酶表达的情况,探讨EB病毒在人胚鼻咽上皮细胞永生化过程中的分子机制.结果表明,EB病毒诱导老化前期人胚鼻咽上皮细胞端粒酶表达,从而促使人胚鼻咽上皮细胞逃避老化期、进入永生化早期阶段.此外,我们还首次发现,人胚鼻咽上皮细胞表达端粒酶活性依赖于EB病毒LMP1蛋白的表达水平和LMP1分子的完整性,LMP1可能通过诱导端粒酶活性表达促进人鼻咽上皮细胞永生化.我们的实验为进一步探讨EB病毒诱导人胚鼻咽上皮细胞永生化的作用机制提供了实验基础.     

A method for transforming lymphocytes from very small blood volumes suitable for paediatric samples

Summary Permanent lymphoblastoid cell lines are important in the molecular analysis and characterization of human genetic disorders, when immortalized cells must be banked for future diagnostic or research purposes. However, routine methods for transformation using Epstein-Barr virus (EBV) require blood volumes that may be difficult to collect from clinically compromised neonates and small children. Here we report a modified transformation procedure utilizing blood samples of small volume (less than 1.0ml), which we have found to be particularly useful for the immortalization of lymphocytes destined for future molecular genetic studies.     

Search for human tumour viruses by transfection: uptake of melanoma and Epstein-Barr virus DNA by human cells.

In a model system, consistent transfection of chick embryo fibroblasts (CEF) by DNA from the XC cell line occurred, with recovery of infectious Rous sarcoma virus. The techniques were then applied in attempts to recover possible human tumour viruses. Even with various modifications of the XC technique, DNA from three human malignant melanoma cell lines failed to infect adult or foetal human fibroblasts, although melanoma DNA was taken up into nuclei of target cells. XC DNA did not transfect human foetal fibroblasts and melanoma DNA was ineffective in CEF. DNA from the Raji (Epstein-Barr virus non-producer) and QIMR-WIL (producer) lymphoblastoid cell lines did not transfect human cord blood lymphocytes or amnion cells. These broadly applicable techniques therefore failed to recover EB virus, the putative melanoma retrovirus, or other potential tumour virus.     

An ATM/Chk2-mediated DNA damage-responsive signaling pathway suppresses Epstein-Barr virus transformation of primary human B cells

Epstein-Barr virus (EBV), an oncogenic herpesvirus that causes human malignancies, infects and immortalizes primary human B cells in?vitro into indefinitely proliferating lymphoblastoid cell lines, which represent a model for EBV-induced tumorigenesis. The immortalization efficiency is very low, suggesting that an innate tumor suppressor mechanism is operative. We identify the DNA damage response (DDR) as?a major component of the underlying tumor suppressor mechanism. EBV-induced DDR activation was not due to lytic viral replication, nor did the DDR marks colocalize with latent episomes. Rather, a transient period of EBV-induced hyperproliferation correlated with DDR activation. Inhibition of the DDR kinases ATM and Chk2 markedly increased transformation efficiency of primary B cells. Further, the viral latent oncoprotein EBNA3C was required to attenuate the EBV-induced DDR. We propose that heightened oncogenic activity in early cell divisions activates a growth-suppressive DDR that is attenuated by viral latency products to induce cell immortalization.     

Sequence complexity of circular Epstein-Bar virus DNA in transformed cells

A simplified procedure, based on several methods previously used to isolate circular DNA molecules from bacteria, was derived for the preparation of covalently closed circular viral DNA molecules from large quantities of lymphocytes transformed by Epstein-Barr virus. The protocol can be applied both to virus nonproducer lines and to lines containing cells activated to virus production. Sufficient amounts o highly purified viral DNA of intracellular origin were obtained from B95-8 and Raji cells to allow direct visual analysis of their sequence complexities after cleavage with EcoRI and separation of fragments by gel electrophoresis. No major differences in complexity were observed between circular DNA and linear virion DNA from B95-8 cells. The fragment patterns observed in this fashion agree well with those detected by conventional blotting and hybridization methods. The procedure can also be used as an analytical method to assay for small amounts of circular Epstein-Barr virus DNA molecules in other transformed cells. In this connection, no circular Epstein-Barr virus DNA was detected in Namalva cells.     

Establishment of Autoantibody-Producing Cell Lines from Peripheral Blood Lymphocytes of Patients with Systemic Lupus Erythematosus

Autoantibody-producing B cell lines were established from peripheral blood lymphocytes of patients with systemic lupus erythematosus. Peripheral blood lymphocytes obtained from five of seven patients were successfully transformed by Epstein-Barr virus. Two of four established B lymphoblastoid cell lines examined in this study produced anti-nuclear factor antibodies and one of them produced anti-single-stranded DNA and anti-double-stranded DNA antibodies. These results indicate that B cell clones committed to self antigens are transformed by Epstein-Barr virus and continue to produce autoantibodies. In order to establish a monoclonal autoantibody-producing B cell line, the cells were cloned by a limiting dilution method. The data suggest that it is possible to establish a monoclonal autoantibody-producing B cell line by the combination of transformation of B cells by Epstein-Barr virus and extensive cloning.     

Detection of circular and linear herpesvirus DNA molecules in mammalian cells by gel electrophoresis.

A simple gel technique is described for the detection of large, covalently closed, circular DNA molecules in eucaryotic cells. The procedure is based on the electrophoretic technique of Eckhardt (T. Eckhardt, Plasmid 1:584-588, 1978) for detecting bacterial plasmids and has been modified for the detection of circular and linear extrachromosomal herpesvirus genomes in mammalian cells. Gentle lysis of suspended cells in the well of an agarose gel followed by high-voltage electrophoresis allows separation of extrachromosomal DNA from the bulk of cellular DNA. Circular viral DNA from cells which carry the genomes of Epstein-Barr virus, Herpesvirus saimiri, and Herpesvirus ateles can be detected in these gels as sharp bands which comigrate with bacterial plasmid DNA of 208 kilobases. Epstein-Barr virus producer cell lines also show a sharp band of linear 160-kilobase DNA. The kinetics of the appearance of this linear band after induction of viral replication after temperature shift parallels the known kinetics of Epstein-Barr virus production in these cell lines. Hybridization of DNA after transfer to filters shows that the circular and linear DNA bands are virus specific and that as little as 0.25 Epstein-Barr virus genome per cell can be detected. The technique is simple, rapid, and sensitive and requires relatively low amounts of cells (0.5 X 10(6) to 2.5 X 10(6)).     

EB病毒感染人胎鼻咽上皮细胞逃避老化期过程中抑制p16^INK4a表达

细胞周期调控紊乱是细胞永生化进程中一个重要的分子事件,本文利用Western blotting和S-P法分别检测p16^INK4a、p53、p21^WAF1／CIP1和E2F1的蛋白表达,试图从细胞周期调控的角度,探讨EB病毒诱导人胎鼻咽上皮细胞逃避老化期的分子机制。结果表明,EB病毒通过抑制p16^INK4a表达而阻断p16^INK4a／Rb途径,上调转录因子E2F1,而对p53、p21^WAF1／CIP表达无明显的影响。结果初步揭示,EB病毒介导的p16^INK4a／Rb／E2F1细胞周期调控紊乱参与了人胎鼻咽上皮细胞逃避老化期过程,为进一步探讨鼻咽癌发病机制提供了科学依据。     

EB病毒感染人胎鼻咽上皮细胞逃避老化期过程中抑制p16INK4a表达

细胞周期调控紊乱是细胞永生化进程中一个重要的分子事件,本文利用Western blotting和S-P法分别检测p16~(INK4a)、p53、p21~(WAF1/CIP1)和E2F1的蛋白表达,试图从细胞周期调控的角度,探讨EB病毒诱导人胎鼻咽上皮细胞逃避老化期的分子机制。结果表明,EB病毒通过抑制p16~(INK4a)表达而阻断p16~(INK4a)/Rb途径,上调转录因子E2F1,而对p53、p21~(WAF1/CIP1)表达无明显的影响。结果初步揭示,EB病毒介导的p16~(INK4a)/Rb/E2F1细胞周期调控紊乱参与了人胎鼻咽上皮细胞逃避老化期过程,为进一步探讨鼻咽癌发病机制提供了科学依据。     

Innate apoptosis of human B lymphoblasts transformed by Epstein-Barr virus: modulation by cellular immortalization and senescence

B-lymphoblastoid cell lines (LCLs) transformed by Epstein-Barr virus have a phenotype corresponding to activated B-lymphoblasts. Although they are widely used as models in various biological and medical studies, their innate morphological differentiation and apoptosis has been little studied. We report here that a large proportion of LCL cells spontaneously differentiate into smaller lymphoid cells which ultimately undergo apoptosis during conventional cell culture. Two distinct types of apoptosis with some intermediate types exist: type 1 apoptosis in small and medium-size cells with shrunken nuclei having heavily condensed chromatin in the whole nucleus region accompanied by relatively large internucleosomally fragmented DNA (above 2 kbp); type 2 apoptosis in large lymphoblasts with extremely lobulated nuclei having chromatin condensation beneath the nuclear membrane alone accompanied by smaller internucleosomally fragmented DNA (below 2 kbp). Type 1 apoptotic cells were far more numerous than type 2 apoptotic cells. The incidence of type 1 apoptosis was suppressed by cellular immortalization and was extremely stimulated at the end of the lifespan (crisis). These results provide essential information for us to use LCLs for various biological and medical studies including cellular immortalization, tumorigenesis and senescence.     

Random association of Epstein-Barr virus genomes with host cell metaphase chromosomes in Burkitt''s lymphoma-derived cell lines.

The random association of Epstein-Barr virus DNA with host cell metaphase chromosomes of all sizes in Burkitt's lymphoma-derived cell lines was demonstrated by two substantially different techniques, namely fluorescence-activated chromosome sorting and in situ hybridization. The nature and potential importance of this association are discussed.     

CD19 signalling improves the Epstein-Barr virus-induced immortalization of human B cell

Epstein-Barr virus (EBV) infection in vitro immortalizes primary B cells and generates B lymphoblastoid cell lines (LCLs). These EBV-LCLs have been used for several purposes in immunological and genetic studies, but some trials involving these transformations fail for unknown reasons, and several EBV-LCLs do not grow in normal culture. In this study, we improved the immortalization method by CD19 and B-cell receptor (BCR) co-ligation. This method shortens the time required for the immortalization and generation of EBV-LCLs but does not alter the cell phenotype of the LCLs nor the expression of the EBV genes. In particular, the CD19 and BCR co-ligation method was found to be the most effective method examined. EBV-infected B cells induced by CD19 and/or BCR ligation expressed the intracellular latent membrane protein LMP-1 earlier than EBV-infected B cells, and the expression of intracellular LMP-1 was found to be closely related to the time of immortalization. These results suggest that the modified method, using CD19 and/or BCR ligation, may efficiently generate EBV-LCLs, by expressing intracellular LMP-1 at an early stage.     

Amounts of Epstein-Barr Virus DNA in Somatic Cell Hybrids Between Burkitt Lymphoma-Derived Cell Lines

The amounts of Epstein-Barr virus DNA in somatic cell hybrids between human lymphoid cell lines were found to be higher than in the parental cell lines, although the hybrids were not induced to spontaneous virus production.     

The Epstein-Barr virus (EBV)-induced tumor suppressor microRNA MiR-34a is growth promoting in EBV-infected B cells

Epstein-Barr virus (EBV) infection of primary human B cells drives their indefinite proliferation into lymphoblastoid cell lines (LCLs). B cell immortalization depends on expression of viral latency genes, as well as the regulation of host genes. Given the important role of microRNAs (miRNAs) in regulating fundamental cellular processes, in this study, we assayed changes in host miRNA expression during primary B cell infection by EBV. We observed and validated dynamic changes in several miRNAs from early proliferation through immortalization; oncogenic miRNAs were induced, and tumor suppressor miRNAs were largely repressed. However, one miRNA described as a p53-targeted tumor suppressor, miR-34a, was strongly induced by EBV infection and expressed in many EBV and Kaposi's sarcoma-associated herpesvirus (KSHV)-infected lymphoma cell lines. EBV latent membrane protein 1 (LMP1) was sufficient to induce miR-34a requiring downstream NF-κB activation but independent of functional p53. Furthermore, overexpression of miR-34a was not toxic in several B lymphoma cell lines, and inhibition of miR-34a impaired the growth of EBV-transformed cells. This study identifies a progrowth role for a tumor-suppressive miRNA in oncogenic-virus-mediated transformation, highlighting the importance of studying miRNA function in different cellular contexts.