Studies of simian virus 40 DNA. VII. A cleavage map of the SV40 genome

A physical map of the Simian virus 40 genome has been constructed on the basis of specific cleavage of Simian virus 40 DNA by bacterial restriction endonucleases. The 11 fragments produced by enzyme from Hemophilus influenzae have been ordered by analysis of partial digest products and by analysis of an overlapping set of fragments produced by enzyme from Hemophilus parainfluenzae. In addition, the single site in SV40 DNA cleaved by the Escherichia coli R_I restriction endonuclease has been located. With this site as a reference point, the H. influenzae cleavage sites and the H. parainfluenzae cleavage sites have been localized on the map.     

Characterization of a rearrangement in viral DNA: mapping of the circular simian virus 40-like DNA containing a triplication of a specific one-third of the viral genome

Serial passage of the non-defective form of a simian virus 40-like virus (DAR) isolated from human brain results in the appearance of three distinct classes of supercoiled DNAs: R_I resistant, R_I sensitive (one cleavage site) and R_I “supersensitive” (three cleavage sites). The R_I cleavage product of the “super sensitive” form is one-third the physical size of simian virus 40 DNA (10.4 S) and reassociates about three times more rapidly than “standard” viral DNA. To identify the portions of the DAR genome present in the 10.4 S segment, the plus strand of each of the 11 fragments of ³²P-labeled simian virus 40 DNA, produced by cleavage with the Hemophilus influenzae restriction endonuclease, was hybridized in solution with the sheared R_I cleavage product of the “supersensitive” class of viral DNA. Reaction was observed with fragments located in two distinct regions of the simian virus 40 genome: (1) Hin-A and C; (2) Hin-G, J, F and K.Further studies indicated that simian virus 40 complementary RNA transcribed in vitro with Escherichia coli RNA polymerase from one strand of simian virus 40 DNA reacts with both strands of the denatured 10.4 S cleavage product when hybridization is monitored with hydroxyapatite. Treatment of the 10.4 S DNA-simian virus 40 cRNA hybrid with the single-strand spcific nuclease, S₁, converted approximately 50% of the radioactive counts to an acid-soluble product. These results indicate that the 10.4 S product contains a transposition of sequences originally present on one of the DAR DNA strands to the other strand. Examination of heteroduplexes formed between the 10.4 S segment and unique linear forms of DAR DNA produced with the R · Eco RI restriction endonuclease have confirmed these observations. Thus it appears that a molecular rearrangement(s) has resulted in the recombination and inversion of viral DNA sequences from two separate loci on the parental DAR genome. This 1.1 × 10⁶ dalton segment is reiterated three times in a supercoiled molecule equivalent in physical size to parental DAR DNA.     

Triplication of a unique genetic segment in a simian virus 40-like virus of human origin and evolution of new viral genomes

The non-defective (heavy) virions from a simian virus 40-like virus (DAR virus) isolated from human brain have been serially passaged at high input multi-plicities in primary monkey kidney cells. The ³²P-labeled, progeny DAR-viral genomes have been purified and tested for sensitivity to the R_I restriction endouclease from Escherichia coli (Eco RI3 restriction nuclease). The parental DAR-viral genomes share many physical properties with “standard” simian virus 40 DNA and are cleaved once by the Eco RI restriction nuclease. After the fourth serial passage, three populations of genomes could be distinguished: Eco RI resistant, Eco RI sensitive (one cleavage site) and Eco RI “supersensitive” (three, symmetrically-located, cleavage sites). The Eco RI cleavage product of the “supersensitive” form is one-third the physical size (10.4 S) of simian virus 40 DNA and reassociates about three times more rapidly than sheared, denatured simian virus 40 DNA. From the fourth to the eighth serial passages, the genomes containing this specific triplication of viral DNA sequences were selected for and became the predominant viral DNA species.     

Persistence of phage lambda DNA in genomes of mouse cells transformed by lambda-carrying SV40 vectors.

To test the suitability of simian virus 40 (SV40) DNA as a vector for inserting DNA segments into the chromosomes of mammalian cells, an EcoRI-A fragment of bacteriophage lambda DNA was covalently joined to a fragment of SV40 DNA and used to transform mouse cells in culture. Three independent, morphologically transformed clones were obtained that were positive for SV40 T-antigen by immunofluorescence staining. DNA from each transformant was examined by restriction enzyme analysis and found to contain both lambda and SV40 sequences. Co-migration of some fragments containing lambda and SV40 sequences following digestion of transformed cell DNA by each of four different restriction enzymes indicated that part of the retained lambda and SV40 DNA was linked in two of the three lines. In the third line, however, none of the restriction fragments had both lambda and SV40 sequences. Although the presence of non-integrated lambda DNA was not excluded, at least some of the lambda DNA appeared to be linked to host cell DNA. Results of digestion by EcoRI suggested that in some cases the transforming linear molecule had probably circularized prior to integration.     

DJ-1, an oncogene and causative gene for familial Parkinson’s disease, is essential for SV40 transformation in mouse fibroblasts through up-regulation of c-Myc

Simian virus 40 (SV40) is a tumor virus and its early gene product large T-antigen (LT) is responsible for the transforming activity of SV40. Parkinson’s disease causative gene DJ-1 is also a ras-dependent oncogene, but the mechanism of its oncogene function is still not known. In this study, we found that there were no transformed foci when fibroblasts from DJ-1-knockout mice were transfected with LT. We also found that DJ-1 directly bound to LT and that the expression level of c-Myc in transformed cells was parallel to that of DJ-1. These findings indicate that DJ-1 is essential for SV40 transformation.

Structured summary

MINT-7988969: DJ-1 (uniprotkb:Q99497) binds (MI:0407) to LT SV40 (uniprotkb:P03070) by pull down (MI:0096) MINT-7988948: LT SV40 (uniprotkb:P03070) physically interacts (MI:0914) with DJ-1 (uniprotkb:Q99LX0) and p53 (uniprotkb:P02340) by anti bait coimmunoprecipitation (MI:0006)     

Azapyrimidine analogues: Inhibition of viral DNA synthesis and protein synthesis in SV40 infected BSC-1 cells

Summary The replication of simian virus 40 DNA and protein synthesis in BSC-1 cells was analyzed in vitro after treatment with 5,6-dihydro-5-azacytidine (DH-5-AzaCR) or 5-azacytidine (5-AzaCR). Results demonstrated that after a 3-h treatment period with 100 μg/ml, DH-5-AzaCR exhibited a 77% inhibition of viral DNA synthesis, whereas 5-AzaCR resulted in a 50% inhibition. Stimulation of DNA synthesis occurred when infected cultures were treated with low doses (0.1 to 0.5 μg/ml) of 5-AzaCR for 3h and after 1 and 2 h of treatment with 100 μg/ml of 5-AzaCR; however, stimulation did not occur with DH-5-AzaCR. DNA synthesized in the presence of either drug demonstrated altered conformations when analyzed on agarose gels; however this alteration was negligible after DH-5-AzaCR treatment, but more pronounced in the presence of 5-AzaCR. Restriction enzyme analysis suggests that DH-5-AzaCR may not be a hypomethylating agent as is 5-AzaCR. Inhibition of total protein synthesis (cellular and viral) was essentially complete 6 h after treatment with DH-5-AzaCR, whereas 5-AzaCR completely inhibited protein synthesis after 3 h. These data indicate that 5-AzaCR does not exhibit a direct dose relationship to the inhibition of DNA synthesis whereas DH-5-AzaCR may show some dose relationship, and that DH-5-AzaCR is a more potent inhibitor of DNA synthesis as compared to 5-AzaCR. This work was supported by grant RR08005, National Institutes of Health, Bethesda, MD. Presented in part before the 87th Annual Meeting of the American Society for Microbiology, Atlanta, GA. April 1–6, 1987.     

Genetic networks in nonpermissive temperature-induced cell differentiation of Sertoli TTE3 cells harboring temperature-sensitive SV40 large T-antigen

To identify the molecular basis by which nonpermissive temperature (NPT) induces cell differentiation in Sertoli TTE3 cells harboring temperature-sensitive SV40 large T-antigen, we performed global scale microarray and computational gene network analyses. In TTE3 cells, inactivation of the large T-antigen by a NPT at 39 degrees C led to cell differentiation accompanying elevation of transferrin, a marker for differentiation of Sertoli cells, and CDKN1A, a cyclin-dependent kinase inhibitor. Of the 22,690 probe sets analyzed, NPT down-regulated 498 probe sets and up-regulated 432 probe sets by >2.0-fold. Hierarchical clustering analysis showed six gene clusters. In the down-regulated cluster I, a significant genetic network including fibronectin 1 was associated with cellular growth and proliferation. In up-regulated cluster IV, a significant genetic network including CDKN1A was associated with cellular differentiation. The present results provide additional novel insights into the molecular basis of cell differentiation induced by NPT in cells.     

Inhibition of postreplication repair and the enhancement of induction of SV40 virus from transformed hamster kidney cells.

The induction by ultraviolet light of simian virus 40 (SV40) from two SV40--transformed hamster kidney cell lines is enhanced by caffeine. In order to investigate the mechanism responsible for this enhancement, the effect of caffeine on postreplication repair of DNA damaged by UV light was studied utilizing alkaline sucrose-gradient sedimentation. Caffeine at concentrations of 0.5, 1.0 or 2.0 mM inhibited the filling of gaps during postreplication repair. In addition, caffeine was found to potentiate cell killing by mitomycin C, an alkylating agent, and to enhance SV40 induction by mitomycin C. We postulate that the persistence of gaps in DNA, caused by the presence of caffeine, results in the enhancement of SV40 virus induction.     

Detection of SV40 DNA sequences in malignant mesothelioma specimens from the United States, but not from Turkey

The incidence of malignant mesothelioma (MM) shows a strong epidemiological association with exposure to asbestos fibers. Recently, simian virus 40 (SV40) DNA sequences have been reported in MM tumor specimens from the United States and several European countries, and the SV40 tumor virus has been implicated as a potential co-factor in the etiology of this disease. However, several large studies from the US, Finland, and Turkey did not detect SV40 sequences in MM samples. To address this discrepancy, MM specimens from Turkey and the US were analyzed in the same laboratory under identical conditions to detect the presence of SV40 DNA. We detected SV40 sequences in 4 of 11 specimens from the United States, but in none of the 9 Turkish samples examined. These findings suggest that geographical differences exist with regard to the involvement of SV40 in human tumors.     

Establishment and characterization of a noradrenergic adrenal chromaffin cell line, tsAM5NE, immortalized with the temperature-sensitive SV40 T-antigen

We established a clonal adrenal medullary cell line, named tsAM5NE, from transgenic mice harbouring the temperature-sensitive Simian virus 40 large T-antigen gene, under the control of the tyrosine hydroxylase promoter. tsAM5NE cells conditionally grew at a permissive temperature of 33°C and exhibited the noradrenergic chromaffin cell phenotype. To understand the characteristics of tsAM5NE cells, we first examined the responsiveness of the cells to ligands of the GDNF (glial cell line-derived neurotrophic factor) family. tsAM5NE cells proliferated at the permissive temperature of 33°C in response to either GDNF or neurturin, but not artemin or persephin. At the non-permissive temperature of 39°C, GDNF or neurturin caused tsAM5NE cells to differentiate into neuron-like cells; however, the differentiated cells died in a time-dependent manner. Interestingly, LIF (leukaemia inhibitory factor) did not affect the GDNF-mediated cell proliferation at 33°C, but promoted the survival and differentiation of GDNF-treated cells at 39°C. In the presence of GDNF plus LIF, the morphological change induced by the temperature shift was associated with up-regulated expression of neuronal markers, indicating that the cells had indeed undergone neuronal differentiation. Thus, we demonstrated that tsAM5NE cells had the capacity to terminally differentiate into neuron-like cells in response to GDNF plus LIF when the oncogene was inactivated by the temperature shift. Thus, this cell line provides a useful model system for studying the mechanisms regulating neuronal differentiation.     

High-level synthesis in Escherichia coli of the SV40 small-t antigen under control of the bacteriophage lambda pL promoter

Several plasmids were constructed in which the SV40 small-t antigen gene was inserted in close proximity downstream from the thermoinducible leftward promoter (pL) of bacteriophage lambda. Upon temperature induction the best of our constructions expressed a small-t-related 19 000-dalton polypeptide in an amount corresponding to approx. 2.5% of total de novo protein synthesis. This 19 000-dalton protein was identified as small-t by specific immunoprecipitation with anti-T serum and by two-dimensional fingerprint analysis. In addition to the 19 000-dalton product, representative plasmids expressed fairly large amounts (up to 7% of total de novo protein synthesis) of a protein with an apparent Mr of 14 500. This 14 500-dalton polypeptide was shown to be related to authentic small-t. Presumably the secondary structure of the mRNA starting at pL is such that translation initiation at an internal AUG codon of the small-t gene is favored over initiation at the true initiating codon.     

SV40 DNA transfection of cells in suspension: analysis of efficiency of transcription and translation of T-antigen

A modification of the Graham and Van der Eb (1974) DNA-calcium phosphate coprecipitation technique is shown to routinely transfect 15% of CV-1 cells with SV40 DNA. The transfection is done in suspension after detachment of cells by trypsin digestion. Transfection efficiency was measured by staining cells for the presence of SV40 T-antigen by indirect immunofluorescence and by assaying for the presence of SV40 early message by the Berk and Sharp (1978) technique.     

Early events in thymocyte activation. I. Stimulation of protein synthesis by a thymus-dependent human serum factor.

Human serum contains a thymus-dependent factor that raises cyclic AMP levels in thymocytes. We found that this factor stimulates protein synthesis in thymocytes cultured in vitro. This activity of serum factor is thymus-dependent, because it is absent in sera from thymectomized donors; furthermore, this effect is predominantly found on precursors of mature T cells. Incubation of thymocytes with other agents that increase cyclic AMP, induces an increase in protein synthesis similar to that observed with serum factor. Most likely, the increase in protein synthesis is one of the events following stimulation of adenylate cyclase in thymocytes that leads to cell differentiation.     

Genes involved in nonpermissive temperature-induced cell differentiation in Sertoli TTE3 cells bearing temperature-sensitive simian virus 40 large T-antigen

Sertoli TTE3 cells, derived from transgenic mice bearing temperature-sensitive simian virus 40 large T (tsSV40LT)-antigen, proliferated continuously at a permissive temperature (33 degrees C) whereas inactivation of the large T-antigen by a nonpermissive temperature (39 degrees C) led to differentiation as judged by elevation of transferrin. To clarify the detailed mechanisms of differentiation, we investigated the time course of changes in gene expression using cDNA microarrays. Of the 865 genes analyzed, 14 genes showed increased levels of expression. Real-time quantitative PCR revealed that the mRNA levels of p21(waf1), milk fat globule membrane protein E8, heat-responsive protein 12, and selenoprotein P were markedly elevated. Moreover, the differentiated condition induced by the nonpermissive temperature significantly increased mRNA levels of these four genes in several cell lines from the transgenic mice bearing the oncogene. The present results regarding changes in gene expression will provide a basis for a further understanding of molecular mechanisms of differentiation in both Sertoli cells and cell lines transformed by tsSV40LT-antigen.     

A simple method for rapid purification of avian sarcoma virus supercoiled DNA by selective precipitation of infected cell chromatin.

A simple and effective method to partially purify virus-specific DNA from avian sarcoma virus-infected QT6 cells has been developed. This method consists of lysing infected cell nuclei in water followed by precipitation of the resulting chromatin with sodium chloride. More than 98% of the host cell DNA could be removed by this method without diminishing viral DNA yields. This method is equally applicable to SV40 DNA purification.     

Transformation of normal diploid cells by isolated metaphase chromosomes of virus-transformed or spontaneous tumor cells.

Normal diploid human cells with a limited life-span in culture, as well as primary or secondary cell cultures of mouse or rat embryos, can be transformed in vitro (i.e. grow in soft-agar or low-serum medium) after a single exposure to metaphase chromosomes from SV40-transformed human or rat cells, Ad5-transformed human cells and several spontaneous human or mouse tumor cells. Chromosomes from normal diploid cells do not show any such transforming activity. As judged from the number of colonies formed in selective medium, the efficiency of transformation is, with some exceptions, of the order of 10(-5)--10(-6) and is generally higher for homologous than for heterologous transfers. A fraction of the colonies demonstrate abortive transformation. Nevertheless, using chromosomes from all but one donor cell population, at least one transferent cell line expressing a stable transformed phenotype has been established. Our results demonstrate that transformation of normal diploid cells by a presumptive chromosome-mediated gene transfer can be obtained with a variety of donor and recipient cells.     

Effects of DNA damaging agents on cultured fibroblasts derived from patients with Cockayne syndrome.

The cytotoxic action of physical and chemical agents on 10 skin fibroblast strains in culture derived from individuals with Cockayne's syndrome was measured in terms of colony-forming ability. As compared to fibroblasts from normal donors, all Cockayne cell strains tested exhibited a significantly increased sensitivity to UV light and a normal sensitivity to X-rays. Cells from two sets of parents of unrelated Cockayne children showed an intermediate level of UV sensitivity. There was no effect of 0.5 mM caffeine on UV survival in normal and two Cockayne strains tested, indicating that postreplicational repair in Cockayne cells as measured by caffeine sensitivity was probably normal. Sensitivity of normal and Cockayne cells to the chemical carcinogens and mutagens 4NQO, N-AcO-AAF, ICR-170 and EMS was also compared. An increased sensitivity of Cockayne cells to 4NQO or N-AcO-AAF, but not the ICR-170 or EMS, was observed. However, unlike the intermediate UV sensitivity, the cell strains from two parents of Cockayne patients showed the same sensitivity to N-AcO-AAF or 4NQO as fibroblasts from normal individuals. Quantiation of damage to the DNA after 20 J . m-2 UV irradiation indicates normal levels of [3H] thymidine incorporation in the Cockayne cells, in contrast to UV-irradiated xeroderma pigmentosum cells (XP 12BE) in which there was a very low level of repari synthesis. Moreover, we have shown previously that excision of UV-induced pyrimidine dimers in 2 of the 10 Cockayne cell strains was normal.     

A procedure for the quantitation of relaxed closed circular DNA in the presence of superhelical DNA: an improved fluorometric assay for nicking-closing enzyme.

The procedure described here takes advantage of the recently discovered single-strand-specific endonuclease activity of snake-venom phosphodiesterase to convert supercoiled PM2 DNA (DNA I′), but not relaxed DNA (DNA I′), to open forms of DNA. The DNA I' was quantitated using a fiuorometric method for covalently closed circular DNA (A. R. Morgan and D. E. Pulleyblank, 1974, Biochem. Biophys. Res. Commun.61, 396–403). The percentage of DNA I′ in mixtures of DNAs I and I′ can be determined to ±l%. The procedure was used as an assay for a nicking-closing enzyme activity partially purified from simian virus 40-infected monkey cells. The assay is linear from 0 to 0.4 μg DNA I′ produced and reproducible to ±0.01 μg DNA I′.     

Effects of metabolic inhibitors on cell lethality and mutation induction in Chinese hamster cells. I. Inhibitors of de novo purine synthesis and a comparison with the effects of caffeine

The effect of pre- and posttreatment incubation of UV-irradiated and ethyl methanesulphonate (EMS) treated cells with non-toxic concentrations of inhibitors of de novo purine synthesis (dnPS) on expression of potentially lethal and premutational damage at the hypoxanthine-guanine phosphoribosyl transferase (HGPRT) locus in V79 cells has been examined. The concentrations of inhibitors used were shown to profoundly perturb de novo DNA synthesis, by measurements of [¹⁴C]formate uptake, and cell cycle progression by flow cytofluorimetry. Postincubation in 6-methyl mercaptopurine ribonucleoside (MMPR) usually but not invariably potentiated the cytotoxic effects of UV and EMS but azaserine (AZS) and methotrexate (MTX) were without effect. No effects on mutant frequencies were observed on posttreatment with any of these agents. Caffeine produced the least effect on dnPS, but invariably potentiated lethal damage. This potentiation of lethal damage is not mediated by dnPS inhibition as has been suggested for Chinese hamster ovary (CHO) cells.     

A comparison of the DNA binding,cytotoxicity and repair synthesis induced in human fibroblasts by reactive derivatives of aromatic amide carcinogens

The cytotoxicity of three structurally-related direct-acting carcinogens, N-acetoxy-2-acetylaminofluorene, N-acetoxy-2-acetylaminophenanthrene and N-acetoxy-4-acetylaminobiphenyl, was compared in normal cells and in excision repair deficient xeroderma pigmentosum cells (XP12BE). All three proved significantly more cytotoxic to the XP cells than to the normal cells. At equicytoxic levels, substantially more residues were initially bound to the DNA of the normal cells than to the XP cells, suggesting that the former are able to remove a large percentage of the DNA bound residues before these can result in cell death. The ability of these cell strains to remove bound residues from DNA, to incorporate thymidine into parental strands of DNA during repair replication, and to recover from potentially lethal damage if held in the non-replicating, density-inhibited G_o state was compared as a function of dose and time. The XP12BE cells proved virtually incapable of excision repair of DNA damage induced by these carcinogens and of recovery. In contrast, normal cells recovered from the potentially lethal effects of these three compounds and did so at a rate comparable to their rate of removal of bound residues and of repair synthesis. In the excision-deficient XP12BE cells, DNA adducts induced by N-acetoxy-2-acetylaminophenanthrene proved 3- to 6-fold more cytotoxic than adducts induced by the other two carcinogens.