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We have studied the immunoglobulin gene organization of ultraviolet light (u.v.)-induced variant cells derived from an Epstein-Barr virus-transformed cell line. One variant produced IgG1 and two variants produced both IgM and IgG1 whereas the parental cell line produced IgM. Southern blot analyses of DNAs of these cells revealed a newly rearranged JH fragment in all the variants. The newly rearranged JH fragment also hybridized with the C gamma 1 sequence. The mu and gamma 1 chains produced in the double isotype-producing variants share the same VH sequence. u.v. illumination also induced rearrangement of the C lambda gene in the IgG1-producing variant. The double isotype producers contained the immunoglobulin gene organization and mutation best explained by fusion of the IgG1 producer and the parental IgM producer.
Mol Biol Med 1984 Oct
PMID:Immunoglobulin gene organization of ultraviolet-illuminated human lymphoblastoid cell lines producing both IgM and IgG. 644 13

To examine myc protein products in the wide variety of human tumor cells having alterations of the c-myc locus, we have prepared an antiserum against a synthetic peptide corresponding to the predicted C-terminal sequence of the human c-myc protein. This antiserum (anti-hu-myc 12C) specifically precipitated two proteins of 64 and 67 kilodaltons in quantities ranging from low levels in normal fibroblasts to 10-fold-higher levels in Epstein-Barr virus-immortalized and Burkitt's lymphoma cell lines, to 20- to 60-fold-higher levels in cell lines having amplified c-myc. The p64 and p67 proteins were found to be highly related by partial V8 proteolytic mapping, and both were demonstrated to be encoded by the c-myc oncogene, using hybrid-selected translation of myc-specific RNA. In addition, the p64 protein was specifically precipitated from cells transfected with a translocated c-myc gene. Both p64 and p67 were found to be nuclear phosphoproteins with extremely short half-lives. In tumor cell lines having alterations at the c-myc locus due to amplification or translocation, we observed a significant change in the expression of p64 relative to p67 when compared with normal or Epstein-Bar virus-immortalized cells.
Mol Cell Biol 1984 Nov
PMID:Proteins encoded by the human c-myc oncogene: differential expression in neoplastic cells. 651 26

A novel cultured cell line, P31/Fujioka, of monocytoid nature was established from leukemic cells in the peripheral blood of a seven-year-old boy with acute monoblastic leukemia. The P31/Fujioka cells have abundant cytoplasm, an indented nucleus of monocytoid appearance, pseudopods detectable by electron microscopy and alpha-naphthyl butyrate esterase activity which is completely inhibited by NaF, but they have no peroxidase activity. Immunologically, the P31/Fujioka cells possess Fc gamma-receptor and phagocytic activity towards sensitized erythrocytes (oxEAIgG), and are reactive with various monoclonal antibodies such as OKM1, anti-Mol, FMC10, FMC12 and OKI1. Chromosome analysis revealed the presence of marker chromosome 11q--due to Nos. 7; 11 translocation and No. 9 pericentric inversion. These findings indicate that the P31/Fujioka cells are derived from the patient's monoblastic leukemia cells and show a more distinct monocyte antigen than other known monocytoid cultured cell lines, U-937 and THP-1. The absence of Epstein-Barr virus nuclear antigen of this line was confirmed.
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PMID:A novel monocytoid cultured cell line, P31/Fujioka, derived from acute monoblastic leukemia. 696 83

We propose a new model for the segmental flexibility of immunoglobulin G (IgG). The flexibility of native and mildly reduced anti-5-(dimethylamino)naphthalene-1-sulfonyl (anti-dansyl) antibody was reexamined by nanosecond fluorescence spectroscopy using deconvolution and lamp-shift corrections. The rabbit antibodies used for this study were purified of dimers and other aggregates. The original results indicated that the decay of fluorescence anisotropy involved two rotational correlation times. It was suggested that the short rotational correlation time, phi s, represented a flexible Fab arm motion over a restricted angle and that the long correlation time, phi L, represented global tumbling of the molecule [Yguerabide, J., Epstein, H. F., & Stryer, L. (1970) J. Mol. Biol. 51, 573--590]. Our new data indicate that the long correlation time primarily represents motions of the Fab segments and not global tumbling of the entire molecule. This interpretation implies a more flexible model for IgG. Thus, in solution the antibody arms appear to move over a wide angle and are not restricted to 33 degrees as was suggested in the earlier model. Simple diffusion calculations and other evidence suggest that phi s may represent V-module flexibility about the switch peptides or Fab twisting around its long axis, whereas phi L may represent wagging or wobbling motions of the Fab arms about the hinge region. The faster motions appear to occur over small angles whereas the slower wagging or wobbling motions responsible for most of the decay of anisotropy appear to be much less restricted. The biological function of IgG and anisotropy changes resulting from hinge disulfide cleavage are interpreted in terms of the proposed model. We also demonstrate a useful method for comparison of time-dependent and steady-state fluorescence polarization data.
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PMID:Segmental flexibility of immunoglobulin G antibody molecules in solution: a new interpretation. 731 58

Vectors containing elements of the Epstein-Barr virus genome are used primarily to maintain cloned DNA inserts as plasmids in mammalian cells. However, Epstein-Bar-virus-based vectors have also been valuable tools in the hands of those studying the life cycle of Epstein-Barr virus. In this article, we discuss those characteristics of Epstein-Barr virus and its life cycle that have been used in vector construction and describe methods that are particularly applicable to the use of Epstein-Barr-virus-based vectors.
Mol Biotechnol 1995 Jun
PMID:Epstein-Barr virus replication studies and their application to vector design. 755 89

The Epstein-Barr Virus (EBV) latency C promoter (Cp) is the origin of transcripts for six viral proteins. The promoter is active in lymphoblastoid B-cell lines but silent in many EBV-associated tumors and tumor cell lines. In these latter cell lines, the viral episome is hypermethylated in the vicinity of this promoter. We show that in such a cell line (Rael, a Burkitt's lymphoma line), 5-azacytidine inhibits DNA methyltransferase, brings about demethylation of EBV genomes, activates Cp transcription, and induces the expression of EBNA-2. Investigation of the phenomenon demonstrates the importance of the methylation status of a particular CpG site for the regulation of the Cp: (i) genomic sequencing shows that this site is methylated when the Cp is inactive and is not methylated when the promoter is active; (ii) methylation or transition mutation at this site abolishes complex formation with a cellular binding activity (CBF2) as determined by electrophoretic mobility shift analyses, competition binding analyses, and DNase I footprinting; and (iii) a single C --> T transition mutation at this site is associated with a marked reduction (> 50-fold) of transcriptional activity in a reporter plasmid. Thus, the CBF2 binding activity is shown to be methylation sensitive and crucial to EBNA-2-mediated activation of the Cp.
Mol Cell Biol 1995 Nov
PMID:Transcriptional activation of the Epstein-Barr virus latency C promoter after 5-azacytidine treatment: evidence that demethylation at a single CpG site is crucial. 756 67

Ultraviolet (UV)-induced repair and mutational spectra were analyzed in an inducible marker gene, the metallothionein-l/guamine-xanthine phosphoribosyl transferase (gpt) fusion gene, carried by an Epstein-Barr virus-derived shuttle vector episomically maintained in human cells. The repair rate of UV photodimers from the shuttle-vector molecules was typical of transcriptionally active sequences, 70% of the dimers being removed within 8 h after irradiation. The spectrum obtained under basal gene transcription was compared with that obtained under induced transcription. In both cases, base substitutions at dipyrimidine sequences predominated. Multiple mutations and deletions probably due to recombinational events induced by UV damage were also observed. Most of the UV-mutated dipyrimidine sites were located in the transcribed strand and were independent of the transcriptional activity of the target gene. In contrast, the distribution of mutations throughout the coding region of the gpt gene was affected by transcription, with a preferential clustering of mutations occurring in the 3' half of the gene after transcription induction. The strand bias observed in the UV spectra most likely reflects selection for nonfunctional gpt protein.
Mol Carcinog 1995 Nov
PMID:Strand bias of ultraviolet light-induced mutations in a transcriptionally active gene in human cells. 757 14

Bovine adrenal fasciculata cells, exposed to either ACTH or AII, synthesize glucocorticoids at an enhanced rate. It is generally accepted that the signaling pathways triggered by these two peptides are not identical. ACTH presumably acts via a cAMP-dependent protein kinase (PKA) and AII, via a calcium-dependent protein kinase. We have found that either peptide hormone stimulates synthesis of a mitochondrial phosphoprotein pp37, leading to accumulation of its proteolytically processed products pp30 and pp29. On the basis of a number of criteria, this 37 kDa protein is the bovine homolog of the 37 kDa protein that we have characterized in rodent steroidogenic tissue (Epstein L. F. and Orme-Johnson N. R.: J. Biol. Chem 266 (1991) 19,739-19,745). Further, bovine pp37 is phosphorylated when PKA or protein kinase C (PKC) is activated directly by (Bu)2 cAMP or PMA, respectively. These studies indicate that either pp37 is a common substrate for PKA and PKC in these cells or there is a common downstream kinase, which is activated by exposure to either ACTH or AII. Rat adrenal glomerulosa cells, exposed to either ACTH or AII, show an enhanced rate of mineralocorticoid synthesis. As for bovine fasciculata cells, it is thought that the signaling pathway triggered by ACTH differs from that triggered by AII. As we found for bovine fasciculata, pp37 is phosphorylated when the rat cells are exposed to either peptide hormone. However, in contrast to the finding for bovine fasciculata, while exposure of the rat glomerulosa cells to (Bu)2cAMP does cause the synthesis of pp37, exposure of the cells to PMA does not. Taken together, these findings provide further evidence that the subcellular signaling events, triggered by the action of AII on bovine adrenal fasciculata and rat adrenal glomerulosa cells, differ. Further, the fact, that pp37 is phosphorylated only when the rate of steroidogenesis is enhanced, reaffirms its potential involvement in the signaling pathway that causes stimulation of steroid hormone biosynthesis.
J Steroid Biochem Mol Biol 1995 Jun
PMID:Comparison of protein phosphorylation patterns produced in adrenal cells by activation of cAMP-dependent protein kinase and Ca-dependent protein kinase. 762 24

Epstein-Barr virus nuclear antigen 2 (EBNA 2) activates transcription of specific genes and is essential for B-lymphocyte transformation. EBNA 2 has an acidic activation domain which interacts with general transcription factors TFIIB, TFIIH, and TAF40. We now show that EBNA 2 is specifically bound to a novel nuclear protein, p100, and that p100 can coactivate gene expression mediated by the EBNA 2 acidic domain. The EBNA 2 acidic domain was used to affinity purify p100. cDNA clones encoding the p100 open reading frame were identified on the basis of peptide sequences of the purified protein. Antibody against p100 coimmunoprecipitated p100 and EBNA 2 from Epstein-Barr virus-transformed lymphocyte extracts, indicating that EBNA 2 and p100 are complexed in vivo. p100 overexpression in cells specifically augmented EBNA 2 acidic domain-mediated activation. The coactivating effect is probably mediated by p100 interaction with TFIIE. Bacterially expressed p100 specifically adsorbs TFIIE from nuclear extracts, and in vitro-translated p56 or p34 TFIIE subunit can independently bind to p100. p100 also appears to be essential for normal cell growth, since cell viability was reduced by antisense p100 RNA and restored by sense p100 RNA expression.
Mol Cell Biol 1995 Sep
PMID:The Epstein-Barr virus nuclear protein 2 acidic domain forms a complex with a novel cellular coactivator that can interact with TFIIE. 765 91

Epstein-Barr virus (EBV) negative and EBV carrying Burkitt lymphoma (BL) lines that remain phenotypically similar to the in vivo tumor cells (operationally defined group I BLs) express high levels of CD10 and CD77, and lack immunoblastic markers such as CD23 and CD39, and the cell adhesion molecules CD11a, CD18, CD54 and CD58. This cell phenotype is associated with poor stimulatory capacity in allogeneic mixed lymphocytes cultures (MLC) [Avila-Carino et al. Int. J. Cancer 40, 691-697 (1987)] EBV carrying BL lines tend to drift spontaneously towards an immunoblastic phenotype in parallel with up-regulation of six EBV-encoded nuclear antigens (EBNA-2 to -6) and two membrane proteins (LMP-1 and -2). These viral antigens are characteristically expressed in all EBV transformed lymphoblastoid cell lines (LCLs) of normal B cell origin and can be induced in group I BL lines by treatment with the DNA demethylating agent 5-azacytidine (5-azaC) [Masucci et al. J. Virol. 65, 1558-1567 (1989)]. We have now studied the effect of 5-azaC on the induction of allogenic T cell proliferation by three EBV negative (Ramos, BL28 and BL41) and four EBV carrying BL lines (Rael, Eli, Chep and Mutu) which stably express a group I phenotype. Pre-treatment with 4-15 microM 5-azaC had no effect on the EBV negative cells but increased the stimulatory capacity of all four EBV carrying lines. LMP-1 was the only viral antigen regularly induced suggesting that its expression may be required for the increase of allostimulation. This was corroborated by the observation that LMP-1 transfection increased 35-70-fold the stimulatory capacity of Rael cells. The cell adhesion molecule CD54 was the only cellular marker selectively up-regulated in all cell lines with increased stimulatory capacity.
Mol Immunol 1993 Apr
PMID:Selective induction of allostimulatory capacity after 5-azaC treatment of EBV carrying but not EBV negative Burkitt lymphoma cell lines. 768 32

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