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1.
UV irradiation of simian virus 40-infected cells at fluences between 20 and 60 J/m2, which yield one to three pyrimidine dimers per simian virus 40 genome, leads to a fluence-dependent progressive decrease in simian virus 40 DNA replication as assayed by incorporation of [3H]deoxyribosylthymine into viral DNA. We used a variety of biochemical and biophysical techniques to show that this decrease is due to a block in the progression of replicative-intermediate molecules to completed form I molecules, with a concomitant decrease in the entry of molecules into the replicating pool. Despite this UV-induced inhibition of replication, some pyrimidine dimer-containing molecules become fully replicated after UV irradiation. The fraction of completed molecules containing dimers goes up with time such that by 3 h after a UV fluence of 40 J/m2, more than 50% of completed molecules contain pyrimidine dimers. We postulate that the cellular replication machinery can accommodate limited amounts of UV-induced damage and that the progressive decrease in simian virus 40 DNA synthesis after UV irradiation is due to the accumulation in the replication pool of blocked molecules containing levels of damage greater than that which can be tolerated.  相似文献   

2.
The induction of phenotypic wild-type revertants in the progeny of an unirradiated or UV-irradiated temperature-sensitive late mutant of simian virus 40 was studied after low multiplicity passages in normal or UV-irradiated confluent monkey kidney cells. The production of wild-type revertants in the progeny of undamaged tsBC245 was followed by infecting the cells at distinct times after irradiation of the cells. Mutation frequencies reached a maximum when infection was delayed for 3--4 days after irradiation of the host cells, and declined gradually thereafter. Virus grown in unirradiated cells did not show such an alteration in mutation frequency. The temporarily higher mutation frequency of virus in UV-pretreated cells is due to a transient mutator activity operating in these cells rather than to an increased number of replications performed in UV-irradiated cells. A similar time course was found for the reactivation of UV-damaged SV40. This might suggest that reactivation and mutagenesis are manifestations of the same process. The yield of mutants due to irradiation of the virus alone was enhanced when infection was delayed for some days after the cells reached confluency; UV pretreatment of the host cells did not enhance the level of mutation obtained by UV irradiation of the virus.  相似文献   

3.
Irradiation of simian virus 40 (SV40)-infected cells with low fluences of UV light (20 to 60 J/m2, inducing one to three pyrimidine dimers per SV40 genome) causes a dramatic inhibition of viral DNA replication. However, treatment of cells with UV radiation (20 J/m2) before infection with SV40 virus enhances the replication of UV-damaged viral DNA. To investigate the mechanism of this enhancement of replication, we analyzed the kinetics of synthesis and interconversion of viral replicative intermediates synthesized after UV irradiation of SV40-infected cells that had been pretreated with UV radiation. This enhancement did not appear to be due to an expansion of the size of the pool of replicative intermediates after irradiation of pretreated infected cells; the kinetics of incorporation of labeled thymidine into replicative intermediates were very similar after irradiation of infected control and pretreated cells. The major products of replication of SV40 DNA after UV irradiation at the low UV fluences used here were form II molecules with single-stranded gaps (relaxed circular intermediates). There did not appear to be a change in the proportion of these molecules synthesized when cells were pretreated with UV radiation. Thus, it is unlikely that a substantial amount of DNA synthesis occurs past pyrimidine dimers without leaving gaps. This conclusion is supported by the observation that the proportion of newly synthesized SV40 form I molecules that contain pyrimidine dimers was not increased in pretreated cells. Pulse-chase experiments suggested that there is a more efficient conversion of replicative intermediates into form I molecules in pretreated cells. This could be due to more efficient gap filling in relaxed circular intermediate molecules or to the release of blocked replication forks. Alternatively, the enhanced replication observed here may be due to an increase in the excision repair capacity of the pretreated cells.  相似文献   

4.
To study the mechanism by which ultraviolet (UV) light inhibits DNA replication, we examined the effects of UV 254 nm irradiation on the replication of simian virus 40 (SV40) DNA and SV40-based plasmid in monkey cells. The study was designed to determine the relative contributions made by inhibition of replication initiation and chain elongation to the immediate inhibition of DNA replication following UV irradiation. We used two-dimensional neutral-alkaline electrophoresis to examine the behaviour of replication intermediates unambiguously. Kinetic analysis using this technique showed that initiation of replication started to decline at 15 min post-irradiation. When the pulse label incorporated in SV40 replication intermediates before irradiation was chased for 1 h, most of the label was found in mature Form I and II molecules. This indicated that replication elongation took place on damaged template. We also used a transfection technique to show that heavily irradiated plasmids replicated efficiently in unirradiated transfected cells. By the transfection technique, we observed that UV irradiation of host cells dose-dependently inhibited replication of transfected non-irradiated plasmids, suggesting that the inhibition of DNA replication is due to a global change in cellular physiology induced by UV. This change was also apparent from poor staining of the chromatin by fluorescent-DNA-binding dyes immediately after UV irradiation of intact cells. We conclude that a significant fraction of chain elongation proceeds on damaged templates and DNA replication during the acute response of cells irradiated with UV is mainly controlled by the inhibition of replication initiation.  相似文献   

5.
UV irradiation of simian virus 40 (SV40)-transformed human and hamster cells induced them both to express a mutator phenotype and to produce SV40. The mutator could also be activated indirectly by transfecting unirradiated cells with UV-damaged calf thymus DNA. In contrast, UV-damaged exogenous DNA failed to rescue SV40 from unirradiated transformed cells. These results suggest that the expression of transforming viruses and of cellular mutator functions is regulated by at least partially independent mechanisms. Unlike the activation of a cellular mutator phenotype, the rescue of SV40 from virus-transformed mammalian cells by UV light might require that the integrated viral DNA and/or specific cellular sequences are directly damaged.  相似文献   

6.
Irradiation of simian virus 40 (ori mutant)-transformed Chinese hamster embryo cells (OD4 line) with UV light induced a cellular capacity which supported a full cycle of helper-independent adeno-associated virus replication. Monochromatic UV light at 254 nm was about 1,000-fold more effective than UV light at 313 nm, indicating that cellular nucleic acid is the primary chromophore in the UV-induced process leading to permissiveness for adeno-associated virus replication. The UV irradiation and the infection could be separated for up to 12 h without substantial loss of permissiveness. During this time interval, the induction process was partly sensitive to cycloheximide, suggesting a requirement for de novo protein synthesis.  相似文献   

7.
During normal maturation and majority of pulse-labeled simian virus 40 DNA progresses from chromatin to previrions and virions within 5 h. UV light inhibits this progression. In heavily irradiated cultures (108 J m-2) most of the simian virus 40 DNA synthesized immediately before irradiation remains as chromatin for at least 5 h. This inhibition of maturation seems to be a result of the inhibition of protein synthesis. The data suggest that the pool of proteins required for maturation is sufficient to convert one-third of the simian virus 40 DNA molecules labeled in a 10-min pulse (at 33 h postinfection) from chromatin to previrions and virions and is exhausted within 1 h.  相似文献   

8.
Methods to measure T antigen-forming capacities of simian virus 40 (SV40) and adenovirus 12 (Ad12) were investigated, and a method to measure the capacity in terms of T antigen-forming units was employed by the use of cytosine arabinoside. Plaque-forming units and T antigen-forming units of SV40, SV40 deoxyribonucleic acid, or Ad12 were inactivated by ultraviolet (UV) irradiation at the same rate, roughly following a single-hit curve. T-antigen formation by UV-irradiated SV40 and Ad12 was enhanced in cells multiply infected and in cells in a growing state. These observations showed that it was difficult or impossible to estimate the size of the gene for T antigen by UV inactivation.  相似文献   

9.
After light UV irradiation (5,000 to 10,000 ergs/mm2) “complete” and “defective” simian virus 40 (SV40) showed an enhancement of oncogenic transformation capacity in Syrian hamster kidney cells in vitro up to 180 and 270% of the controls, respectively. Simultaneously with the enhancement of transformation, an increase in T-antigen induction was observed in CV-1 cells infected with light UV-irradiated SV40; infectivity, however, was correspondingly reduced by 1 log10. After strong UV irradiation (10,000 to 80,000 ergs/mm2) of “complete” and “defective” SV40, transformation capacity in vitro proved to be the most resistant viral function. It was only slightly reduced in comparison with a 4 to 5 log10 reduction of infectivity. T-antigen induction of SV40 was also equally resistant to strong UV irradiation. We found no evidence of “multiplicity reactivation” involved in the high resistance of transformation capacity of SV40 after UV irradiation. Syrian hamster kidney cells transformed in vitro by UV-irradiated SV40 contained the SV40-specific T-antigen and showed the same morphology and growth characteristics as cells transformed by non-irradiated “complete” or “defective” SV40. They induced malignant tumors after subcutaneous inoculation into Syrian hamsters.  相似文献   

10.
We have investigated different parameters characterizing carcinogen-mediated enhancement of methotrexate resistance in Chinese hamster ovary (CHO) cells and in simian virus 40-transformed Chinese hamster embryo (C060) cells. We show that this enhancement reflects dihydrofolate reductase (dhfr) gene amplification. The carcinogens used in this work are alkylating agents and UV irradiation. Both types of carcinogens induce a transient enhancement of methotrexate resistance which increases gradually from the time of treatment to 72 to 96 h later and decreases thereafter. Increasing doses of carcinogens decrease cell survival and increase the enhancement of methotrexate resistance. Enhancement was observed when cells were treated at different stages in the cell cycle, and it was maximal when cells were treated during the early S phase. These studies of carcinogen-mediated dhfr gene amplification coupled with our earlier studies on viral DNA amplification in simian virus 40-transformed cells demonstrate that the same parameters characterize the amplification of both genes. Possible cellular mechanisms responsible for the carcinogen-mediated gene amplification phenomenon are discussed.  相似文献   

11.
Human and rat cells transfected with UV-irradiated linear double-stranded DNA from calf thymus displayed a mutator activity. This phenotype was identified by growing a lytic thermosensitive single-stranded DNA virus (parvovirus H-1) in those cells and determining viral reversion frequencies. Likewise, exogenous UV-irradiated closed circular DNAs, either double-stranded (simian virus 40) or single-stranded (phi X174), enhanced the ability of recipient cells to mutate parvovirus H-1. The magnitude of mutator activity expression increased along with the number of UV lesions present in the inoculated DNA up to a saturation level. Unirradiated DNA displayed little inducing capacity, irrespective of whether it was single or double stranded. Deprivation of a functional replication origin did not impede UV-irradiated simian virus 40 DNA from providing rat and human cells with a mutator function. Our data suggest that in mammalian cells a trans-acting mutagenic signal might be generated from UV-irradiated DNA without the necessity for damaged DNA to replicate.  相似文献   

12.
We have analyzed the structural characteristics of simian virus 40 replicative intermediate DNA produced after UV irradiation and the kinetics of conversion of this intermediate DNA into form I DNA. Replicative intermediate DNA isolated at 30 or 60 min after UV irradiation consists primarily of two species of molecules that sediment in neutral sucrose gradients as either Cairns theta structures or relaxed monomeric circles. Replication forks on the Cairns intermediate DNA are symmetrically located with respect to the origin of replication, ruling out the possibility of asymmetric pauses or blocks to replication fork progression at damage sites. The relaxed circles contain at least one randomly located discontinuity in the daughter strand. Pulse-chase experiments demonstrated that a UV fluence-dependent fraction of the Cairns intermediate DNA progresses through the relaxed circular intermediate before being converted to completed form I molecules. Disappearance of Cairns intermediate DNA occurs at the same rate in irradiated and unirradiated cells, whereas completion of the relaxed circular intermediate DNA occurs at a slow rate, relatively independent of UV fluence. These data support a model for replication of UV-damaged DNA in which replication rapidly continues past damage sites via a gap formation event.  相似文献   

13.
Enhanced Virus Transformation of Hamster Embryo Cells In Vitro   总被引:3,自引:1,他引:2       下载免费PDF全文
Since transformation of hamster cells in vitro by simian virus 40 (SV40) is a rare event in a homogeneously infected cell population, physiochemical studies of the events of virus transformation are difficult. Similarly, other deoxyribonucleic acid-containing oncogenic viruses produce transformed-cell foci in vitro with low efficiency. Sublethal doses of X-ray irradiation, as well as preincubation of hamster embryo cells with the radiomimetic analogue, 5-iododeoxyuridine, markedly sensitized hamster embryo cells to SV40 in vitro. Agents were used at dosages which neither produced lethality nor caused neoplastic transformation in the absence of virus. Embryo cells maintained in vitro for long periods of time became increasingly more sensitive to SV40 transformation. Radiation also stimulated transformation by adenovirus 31. Delay in the addition of virus to preirradiated cells reduced the susceptibility to transformation by SV40 which was observed for cells infected immediately after irradiation, suggesting that radiation repair mechanisms or, possibly, release from radiation-induced "mitotic delay" may interfere with the process of neoplastic conversion by SV40.  相似文献   

14.
Simian virus 40 (SV40)-transformed Syrian hamster kidney cells produce infectious SV40 virus particles after treatments which damage DNA, such as UV irradiation or mitomycin C treatment. We have found that the induction of SV40 by DNA-damaging agents is greatly stimulated when a typical tumor promoter, 12-O-tetradecanoylphorbol 13-acetate (TPA), is present in the medium. Phorbol, which has a molecular structure similar to TPA but does not have any tumor-promoting activity, showed no such stimulatory effect on SV40 induction. This apparent synergistic effect of DNA-damaging agents and tumor promoter (TPA) was more pronounced when a tumor initiator, benzo [a]pyrene or 2-acetamido-fluorene, was combined with TPA. The effect of TPA on UV-triggered SV40 induction was greatly influenced by the timing of TPA addition to the culture medium, which was most efficient when addition of TPA was 5 to 20 h before UV irradiation. The effect of TPA, however, was not observed in SV40 rescue from hamster cells by cell fusion with permissive monkey (C7) cells.  相似文献   

15.
Uninfected African green monkey kidney cells contain a cyclic GMP-stimulated protein kinase. The level or specific activity of the enzyme was not significantly increased after infection of the cells with simian virus 40. This enzyme probably catalyzes the phosphorylation of the structural proteins of the virus.  相似文献   

16.
Tau antigens (also known as cellular or nonviral tumor antigens) were detected in uninfected and simian virus 40-infected monkey cells after immunoprecipitation with serum from hamsters bearing simian virus 40-induced tumours (anti-T serum). These two proteins (56,000 daltons) were digested to similarly sized peptides with various amounts of Staphylococcus aureus V8 protease. The Tau antigen isolated from infected monkey cells was closely related but was not identical to the corresponding protein from human cells transformed by simian virus 40, as determined by two-dimensional mapping of their methionine-labeled tryptic peptides. Hamster cells transformed by various primate papovaviruses (simian virus 40, BK virus, and JC virus) synthesized indistinguishable Tau antigens, as determined by two-dimensional peptide mapping. When tested by the same procedure, these proteins and the ones made in monkey and human cells were found to be related to the Tau antigens isolated from simian virus 40-transformed mouse and rat cells. Based on these results, an "evolutionary tree" was constructed to show the relationship among the methionine-containing tryptic peptides of all of these proteins.  相似文献   

17.
The reactivation of UV-irradiated herpes simplex virus (HSV) was investigated in irradiated and unirradiated transformed hamster cells in which infectious simian virus 40 (SV40) can be induced. Reactivation was enhanced when the cells were treated with UV light or mitomycin C prior to infection with HSV. The IV dose-response curve of this enhanced reactivation was strikingly similar to that found for induction of SV40 virus synthesis in cells treated under identical condictions. This is the first time that two SOS functions described in bacteria have been demonstrated in a single mammalian cell line.  相似文献   

18.
19.
UV radiation and other carcinogenic agents induce an increase in DNA-binding activity to the early domain of the simian virus 40 (SV40) minimal origin in both SV40-permissive and SV40-nonpermissive cells. The increase is due to posttranslational modification of a preexisting protein, since it occurs in the presence of cycloheximide or anisomycin. Binding of this factor is an absolute requirement for the UV-induced SV40 DNA amplification in Co631 cells in vivo. A synthetic double-stranded oligonucleotide covering the early domain sequence totally blocked the UV-induced amplification in competition experiments. Point mutants of the sequence and unrelated oligonucleotides which could not bind the factor also did not block SV40 amplification. Inhibitors of protein synthesis caused an immediate increase of both early-domain factor activity (perhaps by prolonging mRNA half-life for the factor or for a modifying enzyme) and DNA amplification. The effects of UV and cycloheximide on SV40 amplification were superaddition.  相似文献   

20.
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