DNA of Chinese hamster V79 cells newly synthesized after ultraviolet irradiation contains alkali-labile sites

Summary Pulse-labeled daughter DNA of UV-irradiated Chinese hamster V79 cells was denatured in alkaline or neutral conditions and analysed by sucrose gradient centrifugation. A comparison of the sedimentation profiles of DNA treated in alkaline or neutral conditions has shown that in UV-irradiated cells some alkali-labile sites are produced during replication of damaged templates.     

The saturated repair kinetics of Chinese hamster V79 cells suggests a damage accumulation--interaction model of cell killing

The aim of this study is to determine whether the repair process in log-phase Chinese hamster V79 cells exposed to X rays is unsaturated, saturable, or saturated. The kinetics of recovery from damage induced by 2 to 14 Gy of 250 kVp X rays was studied by treating cells with 0.5 M hypertonic saline for 20 min at different postirradiation repair intervals. From the kinetic data, the repair half-time (t1/2), the repair time (time needed to attain maximal survival), and the recovery ratio were calculated. The results show that the t1/2 (1.42 min/Gy) and the repair time (6.04 min/Gy) increase linearly with dose, the logarithm of the recovery ratio increases linear-quadratically with dose, and the D0 increases linearly with repair interval at a rate of 2.4 cGy/min. From these results we suggest a model: the repair of damage (undefined lesions) necessary for cell survival is effected by a repair process (t 1/2 of 1.42 min/Gy) which is saturated at doses as low as 2.4 cGy; repair saturation leads to a dose-dependent accumulation of repairable lesions; and interaction among accumulated repairable lesions results in the induction of irreparable (lethal) lesions. We call this the accumulation-interaction model of cell killing by low-LET radiation.     

1,6-Dinitropyrene causes spindle disturbances and chromosomal damage in V79 Chinese hamster cells

We have investigated the cytogenetic effect of 1,6-dinitropyrene (1,6-DNP) in Chinese hamster V79 cells. The chemical caused a dose-dependent increase in the incidence of initial and full C-mitoses, polyploid mitoses, ana-telophases with lagging chromosomes, non-disjunction and multipolar configurations, in a range of 0.05-5 microM. These findings indicate that 1,6-DNP interferes with the functioning of the spindle apparatus in V79 cells. Early signs of spindle disturbances were seen at 1,6-DNP concentrations which only moderately reduced cell growth and division. Analysis of structural chromosomal aberrations revealed the appearance of chromatid-type aberrations with open breaks and exchanges accompanied by gaps. The results indicate that 1,6-DNP is both a spindle-disturbing and a clastogenic agent in V79 cells.     

Induction of apoptosis by benzamide and its inhibition by aurin tricarboxylic acid (ATA) in Chinese hamster V79 cells

To investigate the effect of benzamide and nicotinamide, well known inhibitors of poly(ADP-ribose) polymerase, in Chinese hamster V79 cells at the physiological condition of cell growth, we have tested the ability of the inhibitors to induce apoptosis. Apoptosis was detected by nuclear fragmentation, nucleosomal ladder formation, cytochrome-c release from the mitochondria and caspase-3 activation. Benzamide treatment alone increased nuclear fragmentation in dose (2.5-10 mM) and time (4-48 h)-dependent manner. Such treatment also increased nucleosomal ladders. However, 5 mM benzamide pre-treatment inhibited the nucleosomal ladders induced by gamma-irradiation indicating the role of poly(ADP-ribose) polymerase was different in irradiated cells and in un-irradiated cells. Release of cytochrome-c from the mitochondria and caspase-3 activity were also increased by such treatment. Treatment with 200 microM of aurin tricarboxylic acid (ATA), an inhibitor of DNases, inhibited the nucleosomal ladders induced by benzamide or gamma-irradiation without changing the cytochrome-c release or caspase-3 activation. This result showed that ATA inhibited the nucleosomal ladders possibly by inhibiting DNase(s) involved in apoptosis.     

Clastogenicity of 2-chlorobenzylidene malonitrile (CS) in V79 Chinese hamster cells.

The clastogenicity of the sensory irritant 2-chlorobenzylidene malonitrile (CS) to V79 Chinese hamster cells was investigated at various exposure conditions. CS efficiently induced chromatid-type aberrations in a dose-dependent manner provided the cells could run through at least one or two S-phases during a 20-h exposure over a 3-h exposure followed by a 20-h recovery period (cell cycle time 8-10 h). The induction of SCEs indicates an S-dependent mechanism. The hydrolysis products o-chlorobenzaldehyde and malonitrile were inactive in these experiments.     

Induction of CAD gene amplification by restriction endonucleases in V79,B7 Chinese hamster cells

The restriction endonucleases PvuII, BamHI and EcoRI were tested for their ability to induce gene amplification in V79,B7 Chinese hamster cells. The results indicate that treatment with these enzymes efficiently increases the frequency of clones resistant to N-phosphonacetyl-L-aspartate, indicating induction of CAD gene amplification.     

2-Chlorobenzylidene malonitrile (CS) causes spindle disturbances in V79 Chinese hamster cells

Exposure of V79 Chinese hamster cells to 2-chlorobenzylidene malonitrile (CS), a chemical used as a sensory irritant for riot control, caused a concentration-dependent increase in the incidence of spindle disturbances. A C-mitotic effect with the appearance of C-metaphases, a metaphase block and the concomitant disappearance of ana-telophase figures were observed after a 3-h treatment. The results indicate that CS might induce aneuploidy in mammalian cells by interacting with the mitotic apparatus.     

The effect of sequential irradiation with X-rays and fast neutrons on the survival of V79 Chinese hamster cells

V79 Chinese hamster cells have been exposed to X-rays or fast neutrons or to the two radiations given sequentially. Cells exposed to a priming dose of X-rays and then exposed immediately to a series of neutron doses regard the X-ray dose as equivalent to a neutron dose giving the same surviving fraction (iso-effective). If the cells are exposed to a neutron dose followed by X-rays the resulting survival is higher than would be obtained if the primary dose had been an iso-effective X-ray dose. However, it is lower than would be expected if the two radiations acted independently. The results imply that there is interaction between the damage caused by X-rays and fast neutrons. If the two radiations are given 3 hours apart they act independently.     

Effect of intercellular contact on DNA conformation, radiation-induced DNA damage, and mutation in Chinese hamster V79 cells

Chinese hamster V79 cells, when grown as small spheroids in suspension culture, are more resistant to killing by ionizing radiation than when grown as monolayers. We have attempted to determine whether this enhanced survival following irradiation is reflected in DNA damage and repair at the structural level (by measuring alkali-induced DNA unwinding rates from strand breaks) and at the functional level (by measuring resistance to forward mutation at the HGPRT locus). For a given dose of radiation, the unwinding of DNA in high salt/weak alkali was less complete for spheroid DNA than for monolayer DNA, and the rate of repair of radiation damage was faster in spheroid DNA. These differential responses were lost 8 hr after separation of spheroids into single cells, coinciding with loss of radioresistance measured by clonogenicity. In addition, spheroid cells showed fewer numbers of induced mutants per Gray, although, for a given level of survival, the mutation frequency for monolayers and spheroids was identical. These results suggest that conformational changes in DNA resulting from cell growth as spheroids might enhance repair of radiation-induced lesions.     

Enhanced cell killing, inhibition of recovery from potentially lethal damage and increased mutation frequency by 3-aminobenzamide in Chinese hamster V79 cells exposed to X-rays

X-ray induced potentially lethal damage and its inhibition by the aromatic amide 3-aminobenzamide have been investigated in Chinese hamster V79 cells. 3-Aminobenzamide (3-AB) is a known inhibitor of polyadenosine diphosphoribose synthetase. With increasing concentrations of 3-AB an increasing inhibition of PLD repair was observed. Little inhibition of PLD repair was seen when 3-AB was added 3 h following irradiation. Utilizing the 6-thioguanine mutation assay, the effect of poly(ADP-R) synthetase inhibition under conditions of PLD repair upon mutation frequency were also studied. A large increase in mutation frequency following 24 h post-irradiation recovery in the presence of 3-AB was seen. These results favour a possible role of 3-AB in preventing repair by facilitating early damage fixation before repair can occur, simultaneously reducing G2-arrest.     

Mutagenicity, cytotoxicity and DNA crosslinking in V79 Chinese hamster cells treated with cis- and trans-Pt(II) diamminedichloride.

The mutagenicity and cytotoxicity of cis- and trans-Pt(II) diamminedichloride (PDD) were examined in V79 Chinese hamster lung cells and compared with effects on DNA measured by alkaline elution. DNA--protein crosslinks and DNA interstrand crosslinks were detected following doses of cis-PDD which reduced cell survival 80--90% and which produced a mutant frequency of 3 X 10(-4) at the HGPRT locus. Equitoxic doses of trans-PDD were much less mutagenic than cis-PDD. At equitoxic doses, trans-PDD produced more DNA-protein crosslinking than did cis-PDD, but interstrand crosslinking for the two isomers was comparable. Hence, the interstrand crosslink could be the cytotoxic lesion produced by these Pt compounds whereas neither of these DNA lesions are necessarily mutagenic. The mutagenesis produced by cis-PDD could be due to crosslinks of a different type than those produced by trans-PDD or it may be due to monofunctional damage.     

Differential sensitivity of Chinese hamster V79 and Chinese hamster ovary (CHO) cells in the in vitro micronucleus screening assay.

Both the V79 and CHO cell lines are routinely used in the in vitro MN screening assay for the detection of possible genotoxicants. The CHO cell line is the predominant cell line currently used in the genetic toxicology testing industry. However, some laboratories routinely utilize the V79 cell line since the in vitro MN screening assay was initially developed using V79 cells. Our laboratory has historically used the CHO cell line. Therefore, our laboratory was interested in comparing the two cell lines with regard to possible similarities or differences in MN induction sensitivity after exposure to cyclophosphamide (CPA) and mitomycin C (MMC), the two standard positive control chemicals routinely used in this assay. Three exposure conditions in the presence of CPA and MMC were examined in both cell lines. Replicate cultures of CHO cells in McCoy's 5A and V79 cells in both McCoy's 5A and E-MEM were established and treated with 5 microg CPA/ml (4h exposure with S9), 0.5 microg MMC (4h exposure without S9) and 0.5 microg MMC (24h exposure without S9). A total of 400 cytochalasin B-blocked binucleated cells and 200 consecutive cells were analyzed from each culture for MN and cell cycle kinetics, respectively. Analysis of the data demonstrated that CHO cells were up to approximately five-fold more sensitive to the induction of CPA- and MMC-induced MN than V79 cells. Both cell lines exhibited similar average generation times among identical exposure groups. Therefore, the difference in MN sensitivity cannot be attributed to possible differences in cell cycle kinetics and is possibly related to inherent cellular differences in the processing of and/or repair of CPA- and MMC-induced damage by V79 and CHO cells.     

Mutagenicity studies by co-cultivation of bronchoalveolar cells and blood lymphocytes with V79 Chinese hamster cells

Human bronchoalveolar cells, consisting of approximately 85% pulmonary alveolar macrophages (PAMs), and peripheral blood lymphocytes isolated from healthy volunteers were investigated for their ability to metabolize 7,8-diol of benzo[a]pyrene (B(a)P). The mutagenicity of reactive metabolites was analyzed by employing a co-cultivation system using V79 Chinese hamster cells for the detection of mutations. The metabolic activity of the human cells was compared to PAMs isolated from rabbits. The number of PAMs obtained by bronchoalveolar lavage of smokers was found to be significantly elevated compared with nonsmokers. However, the mean number of induced mutations of the 7,8-diol mediated by PAMs during co-cultivation did not differ significantly between smokers and nonsmokers. The aryl hydrocarbon hydroxylase (AHH) activity of human lymphocytes has been studied by others, but to the best of our knowledge this is the first demonstration that human blood lymphocytes could be successfully used in a co-cultivation assay for the characterization of xenobiotic metabolism in terms of mutations, as illustrated by the linear increase of induced mutations in the V79 cells. Rabbit PAMs were less efficient in mediating mutations as compared to both smokers' and nonsmokers' PAMs or lymphocytes. This can probably be explained by less efficient bioactivation of 7,8-diol in rabbit PAMs, which is supported by the fact that the rabbit PAMs metabolized B(a)P in a different way as compared to human PAMs as revealed by HPLC analysis of ethyl acetate extractable metabolites of 3H-B(a)P. No qualitative or quantitative difference in the patterns of B(a)P metabolism by PAMs isolated from smokers and nonsmokers could be established. In conclusion, human PAMs were found to be more efficient in terms of cell-mediated mutagenicity than human lymphocytes, which are more efficient than rabbit PAMs. The present results differ from previous reports concerning the xenobiotic metabolizing capacity of these cells assessed by other methods. This illustrates the usefulness of the co-cultivation assay, because it measures not only the bioactivating capacity of isolated mammalian cells, but also their detoxifying capacity, the transfer of mutagens to other cells and the ability of their metabolites to cause mutations.     

Effects of reactive oxygen species on proliferation of Chinese hamster lung fibroblast (V79) cells

Reactive oxygen species (ROS) have emerged as important signaling molecules in the regulation of various cellular processes. In our study, we investigated the effect of a wide range of ROS on Chinese hamster lung fibroblast (V79) cell proliferation. Treatment with H2O2 (100 microM), superoxide anion (generated by 1 mM xanthine and 1 mU/ml xanthine oxidase), menadione, and phenazine methosulfate increased the cell proliferation by approximately 50%. Moreover, a similar result was observed after partial inhibition of superoxide dismutase (SOD) and glutathione peroxidase. This upregulation of cell proliferation was suppressed by pretreatment with hydroxyl radical scavengers and iron chelating agents. In addition to ROS, treatment with exogenous catalase and SOD mimic (MnTMPyP) suppressed the normal cell proliferation. Short-term exposure of the cells to 100 microM H2O2 was sufficient to induce proliferation, which indicated that activation of the signaling pathway is important as an early event. Accordingly, we assessed the ability of H2O2 to activate mitogen-activated protein kinases (MAPK). Jun-N-terminal kinase (JNK) and p38 MAPK were both rapidly and transiently activated by 100 microM H2O2, with maximal activation 30 min after treatment. However, the activity of extracellular signal-regulated kinase (ERK) was not changed. Pretreatment with SB203580 and SB202190, specific inhibitors of p38 MAPK, reduced the cell proliferation induced by H2O2. The activation of both JNK and p38 MAPK was also suppressed by pretreatment with hydroxyl radical scavenger and iron chelating agents. Our results suggest that the trace metal-driven Fenton reaction is a central mechanism that underlies cell proliferation and MAPK activation.     

Genotoxic effects in M5 cells and Chinese hamster V79 cells after exposure to 7Li-beam (LET=60 keV/microm) and correlation of their survival dynamics to nuclear damages and cell death

Chinese hamster V79 cell and a cell strain M5, derived from V79 cells and reported to be relatively resistant to gamma-ray, hydrogen peroxide, and N-methyl-N-nitro-N-nitrosoguanidine (MNNG; a potent human carcinogen), were exposed to high LET (7)Li-beam (LET=60 keV/microm) at approximately 90% confluent state in the dose range of 0-1 Gy. Effects of (7)Li-beam exposure on cell survival, micronuclei induction (MN), chromosomal aberrations (CA) and apoptosis were compared in both the cell lines. A dose-dependent decline in survival for both the cell lines was noted, relatively less in M5 cells (mostly p<0.01) indicating greater radio-resistance in this strain. The MN, CA and apoptosis increased in a dose-dependent manner in both V79 and M5 cells. Significant differences in various other parameters between these two cell lines were also noted. The relative intensity of DNA ladder, which is a useful marker for the determination of the extent of apoptosis induction, was much higher in V79 cells. A good correlation between the reduction of the surviving fractions and the increase in frequencies of MN or CA or apoptosis was noted for both the cell lines.     

Inactivation of Chinese hamster V79/4(AH1) and HeLa cells by 24 keV neutrons

Cell survival studies have been carried out with a filtered neutron beam providing a nearly pure, high intensity source of 24 keV neutrons. These suggest that 24 keV neutrons behave as high LET radiation. The RBE at 37 per cent survival was approximately 2.2 for V79 Chinese hamster cells while HeLa cells gave a value of 2.9.     

An inhibitor of potentially lethal damage (PLD) repair reduces the frequency of gamma-ray-induced mutations in cultured Chinese hamster V79 cells.

Cordycepin (3'-deoxyadenosine, 3'-dA) is an RNA antimetabolite and a radiosensitizer in cultured mammalian cells. In the present paper, the effects of 3'-dA on gamma-ray-induced lethality and 6-thioguanine (6TG)-resistant mutations in cultured Chinese hamster V79 cells were examined. 3'-dA had the effect of sensitizing the lethality induced by gamma-rays. The potentially lethal damage (PLD) repair produced by post-incubation of cells in Hanks' solution after gamma-irradiation was almost completely suppressed by 5 x 10(-5) M 3'-dA. When cells were irradiated with 10 Gy gamma-rays and incubated with 3'-dA for 5 h, the frequency of 6TG-resistant mutations induced by gamma-rays decreased to one-sixth of that of irradiated cells incubated without 3'-dA. The decrease in the frequency of gamma-ray-induced mutations was dependent on the length of incubation time with 3'-dA. It is suggested that the inhibition of PLD repair by 3'-dA may be that of error-prone repair.