Chromosomal localization of the Epstein-Barr virus (EBV) genome in Bloom's syndrome B-lymphoblastoid cell lines transformed with EBV

The localization of the Epstein-Barr virus (EBV) genome in chromosomes of human B-lymphoblastoid cell lines (LCLs) transformed with EBV, and the effect of EBV DNA on the level of sister chromatid exchange (SCE) in Bloom's syndrome (BS) B-LCLs, were examined with chromosomal in situ hybridization techniques using a ³H-EBV DNA probe. EBV DNA was detected in chromosomes 1–5 and 13–15 at specific G band regions in BS as well as in normal B-LCLs, regardless of SCE. Several chromosomal sites (1p31, 1q31, 4q22–24, 5q21, 13q21, 14q21) carrying EBV DNA seemed to be very characteristic in normal as well as in BS B-LCLs. There was no statistically significant difference in silver grain counts due to EBV DNA and their distribution in different chromosomes or groups among normal and BS B-LCLs with normal and high SCE. These findings strongly indicate that EBV infection did not introduce a correcting factor for BS SCE.     

Nucleosomal structure of Epstein-Barr virus DNA in transformed cell lines.

Micrococcal nuclease digestion was used to analyze Epstein-Barr virus (EBV) DNA structure in nuclei of transformed cells. Digests of virus-producing (P3HR-1), non-virus-producing (Raji), and superinfected Rajii cell nuclei were fractionated by electrophoresis on agarose gels, transferred to nitrocellulose, and hybridized to 32P-labeled EBV DNA. The viral DNA of Raji nuclei produced a series of bands on electrophoresis whose lengths were integral multiples of a unit size, which was the same as the repeat length of host DNA. Viral DNA in nuclei of P3HR-1 and superinfected Raji cells produced faintly visible bands superimposed on a smear of viral DNA which dominated the hybridization pattern. No differences were detected in the patterns when total DNA digests from Raji, P3HR-1, and an EBV DNA-negative cell line (U-698M) were analyzed by ethidium bromide staining or by hybridization with the use of 32P-labeled lymphoblastoid cell DNA as probe. We conclude that the EBV episomal DNA of Raji cells is folded into nucleosomes, whereas most of the viral DNA of P3HR-1 and superinfected Raji cells is not. This pattern of DNA organization differs signficantly from that in papova group viruses.     

High-potentiality preliminary selection criteria and transformation time-dependent factors analysis for establishing Epstein-Barr virus transformed human lymphoblastoid cell lines

Infection of freshly isolated and cryopreserved lymphocytes with Epstein-Barr virus (EBV) leads to the establishment of human B lymphoblastoid cell lines (LCLs). Techniques for optimal infection of the lymphocytes are vital for the establishment of a human biobank. The present study found that more than half (58-86%) of such established LCLs had transport times of less than 48 h, cell densities exceeding 10(6) cells/ml and cell viabilities greater than 90%. After EBV infection, 3306 freshly isolated lymphocytes required 30.0 +/- 0.1 days to become LCLs. Conversely, 1210 cryopreserved lymphocytes required 36.2 +/- 0.4 days. Cell density and viability of the culture affected transformation time in freshly isolated lymphocytes. On the other hand, blood transport time, cryopreservation time and initial cell viability were major factors in cryopreserved specimens. These results contribute to general information concerning the establishment of a human biobank for EBV infected cells.     

In vitro radiosensitization by eribulin in human cancer cell lines

BackgroundThe objective was to to determine the radiosensitizing properties of eribulin and the potential mechanisms of radiosensitization in cervical (HeLa) and pharyngeal (FaDu) cancer cell lines.Materials and methodsCytotoxicity was evaluated by the crystal violet method. The 10% and 50% inhibitory concentration (IC10, IC50) for 24-hour drug exposure were determined. The surviving fraction at 2 Gy (SF2) and the sensitizer enhancement ratio (SER) were calculated from radiation cell survival curves in the presence or absence of eribulin. Combination index (CI) was calculated to determine if there is a true synergistic interaction between eribulin and irradiation. Cell cycle changes were assessed by propidium iodide staining and flow cytometry. Apoptotic cells were detected by annexin V and TUNEL-assay.ResultsMean IC50s and IC10s were 1.58 nM and 0.7 nM and 0.7 nM and 0.27 nM for HeLa and FaDu cells, respectively. Radiosensitization was observed in both lines with a SER up to 2.71 and 2.32 for HeLa and FaDu cells, respectively. A true synergistic effect was showed with a CI of 0.82 and 0.76 for HeLa and FaDu cells, respectively. Eribulin induced significant G2/M cell arrest and marked apoptosis. Irradiation combined with 3 nM eribulin increased the apoptotic response to radiation in Hela cells.ConclusionEribulin shows a true in vitro radiosensitizing effect in HeLa and FaDu cells by inducing significant G2/M phase arrest. In HeLa, the enhancement radiation-induced apoptosis could be an additional mechanism of radiosensitization. Further studies are needed to evaluate the clinical benefits of concurrent eribulin and radiotherapy as a novel therapeutic strategy for cancer.     

Functional macrophage cell lines transformed by Abelson leukemia virus.

Three cloned cell lines have been established from murine tumors induced with Abelson leukemia virus which express properties of macrophages. Two of the three original tumors in addition yielded lymphocyte cell lines, one typical of the Abelson virus disease and the other a thymic lymphoma. Two of the macrophage lines are tumorigenic when placed in syngeneic mice. All of the macrophage lines pinocytose neutral red, phagocytose zymosan and latex beads, mediate antibody-dependent killing and phagocytosis of sheep erythrocyte targets, and secrete high levels of lysozyme. None of these properties was exhibited by the lymphocyte lines. Of the two macrophage cell lines tested, neither was capable of replacing the adherent cell population required for the induction of in vitro immune responses. An agent that activates normal macrophages, bacterial lipopolysaccharide, specifically inhibits the growth of the transformed macrophages in culture. Secretion of infectious Abelson leukemia virus by two of the macrophage lines, RAW 309Cr and WR 19M, provides conclusive evidence that the Abelson virus is capable of productively infecting the macrophage cell type. The other macrophage line, RAW 264, fails to secrete detectable virus particles and is negative in the XC plaque formation assay, as well as the fibroblast transformation assay for Abelson virus, but becomes positive for Abelson virus production after rescue by Moloney leukemia virus.     

In vitro isolation and establishment of new embryonal cell lines from rat nephroblastoma

Summary Two mixed cell lines designated REN-1 and REN-2 were established successfully in continuous in vitro culture from subcutaneously propagated transplant tissue derived from a nephroblastoma which had occurred spontaneously in an Nb hooded rat. In monolayer culture the lines consisted of clumps, islands, and cords of densely crowded, small basophilic cells of epithelioid character, together with mesenchymelike cells occupying the intervening spaces. The proportion of epithelioid cells to mesenchyme could be enhanced by high seeding densities and the intermittent application ofcishydroxyproline to the medium. A third cell form with the appearance of more mature epithelium was observed as a later development in one of the monolayer cultures (REN-1). This larger epithelial cell and a homogeneous mesenchymal population were isolated as cloned cell lines from REN-1 (REN-1-C/2 and REN-1-C/1, respectively), but attempts to clone the dominant basophilic epithelioid cell were not successful. Light and electron microscopy indicated the small, basophilic epithelioid cells to be morphologically consistent with the undifferentiated embryonal blast cells of the parent tumor. They were a distinctive population unlike known malignant cell lines representative of chemically transformed rat kidney mesenchyme and epithelium. The mesenchymelike cells present in the uncloned cell lines, and cloned in REN-1-C/1, were fibroblasts by ultrastructural criteria and therefore distinct from the epithelioid moiety. Ultrastructurally the larger epithelium cloned in REN-1-C/2 displayed the features of differentiated renal epithelium. Subcutaneous transplantation in syngeneic and allogeneic recipients showed the uncloned parent cell lines containing the basophilic epithelioid population to be highly tumorigenic, producing rapidly growing tumors that were unequivocal nephoblastomas. The mesenchymal clone, REN-1-C/1, was also tumorigenic but, consistent with its fibroblastic nature, produced only fibrosarcomas on transplantation. The mature epithelial clone, REN-1-C/2, transplanted as an anaplastic carcinoma with limited tubule formation. Because of their distinctive morphology and growth behavior, and their ability to proliferate into nephroblastomas on transplantation, the dominant population of basophilic epithelioid cells in the parent uncloned cell lines is considered to represent neoplastic kidney cells of undifferentiated embryonal type. The possible host origin of the mesenchymal population from the supporting stroma of the original transplantation tumor is suggested in discussion. This investigation was supported by research grants CA-24216 and CA-12227 awarded by the National Cancer Institute, Department of Health and Human Services, and in part by the National Cancer Institute of Canada.     

Interleukin-1-like factor from human B-lymphocytes transformed by the Epstein-Barr virus

The NC-37, EBV-transformed human B-lymphoblastoid cell line spontaneously produces interleukin (IL)-1-like factor, which is able to stimulate proliferation of mouse thymocytes and human fibroblasts. The IL-1-like factor production can be enhanced by prodigiozan and by the conditioned medium of human peripheral blood mononuclear cells. The NC-37 cells have a membrane-associated form of IL-1-like factor also. The molecular mass of the intracellular precursor of this factor determined by gel-filtration is 35-40 kDa, and that of the secretory form--18-20 kDa. The secretory form has the following isoelectric points: 4.5; 6.8; 7.2-8.4.     

In vitro immunization of human lymphocytes with Epstein-Barr virus capsid antigen]

Conditions for in vitro immunization of human lymphocytes from adult peripheral blood, tonsils and cord blood with Epstein-Barr Virus (EBV) capsid antigens have been studied. Pokeweed mitogen and B cell growth factor from Namalva cell line were shown to induce a significant production of specific antibodies by human lymphocytes stimulated with EBV. This effect made it possible to generate primary immune response in vitro using lymphocytes from EBV seronegative donors.     

Establishment and characterization of a new Epstein-Barr virus transformed cell line from a human B cell lymphoma

We have established a new cell line from a patient with centrocytic B cell lymphoma. Highly purified peripheral blood B cells from patient DUL (WBC counts 158,000/microliters) were infected in vitro with Epstein-Barr virus (EBV), and CD20+ B cells were cloned into 96 well culture plates with the aid of a cell sorter autoclone device. As shown by GTG-banding and Southern blot analysis, out-growing EBV-positive clones had the same chromosomal abnormalities and identical monoclonal IgH gene rearrangement as the original EBV-genome-negative leukemic B cell clone. Surface marker analysis with a panel of monoclonal antibodies revealed identical patterns on EBV-negative and -positive clones, with the exception of PCA1 (reactive with plasma cells) which was negative on freshly explanted leukemic B cells but positive on EBV-converted clones.     

Concatameric replication of Epstein-Barr virus: structure of the termini in virus-producer and newly transformed cell lines.

The linear form of Epstein-Barr virus (EBV) DNA has homologous direct tandem repeats of approximately 500 bp at each terminus (TR). After infection, EBV DNA circularizes via the TR to form the intracellular episomal DNA. To analyze the mechanism of the synthesis of linear DNA through possible replicative intermediates, the terminal fragments were identified in the total intracellular DNA and the covalently closed circular DNA from a productively infected cell line after induction of replication or after treatment with an inhibitor of viral DNA synthesis. These studies indicate that some of the fused terminal fragments detected in the total intracellular DNA are replication-dependent forms which are selectively excluded from the covalently closed circular fraction and are eliminated after treatment with acyclovir. The EBV terminal restriction enzyme fragments were identified in three producer cell lines, each with a characteristic number of TR in the intracellular episomal DNA. Identification of the termini in cell lines established with the three virus strains revealed that the newly transformed cell lines had a greater number of TR than did the template DNA in the producer cell line. The increase in the number of TR in progeny episomes indicates that linear DNA is produced from concatameric replicative intermediates rather than from amplified catenated circular intermediates.