Comparative analysis of O6-methylguanine methyltransferase activity and cellular sensitivity to alkylating agents in cell strains derived from a variety of animal species

Using 26 cultured cell lines derived from 17 different animal species, we have measured both the activity of O6-methylguanine (O6-MeG) methyltransferase (MT) in cell extracts and the sensitivity of the strains to the lethal effects of the alkylating agents, N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) and 1-(4-amino-2-methyl-5-pyrimidinyl)methyl-3-(2-chloroethyl)-3-nitrosourea (ACNU). The MT activity was assayed by measuring the amount of 3H radioactivity transferred from methyl-[3H]-labeled O6-MeG in DNA to acceptor protein molecules in the extracts. In all the 21 mammalian cell strains, lethal sensitivity to ACNU as measured by colony-forming ability correlated well with cellular MT activity, indicating that the major lethal ACNU damage is reparable by the MT. On the other hand, MNNG sensitivity did not necessarily correlate with the MT activity.     

Inhibition of cell growth in NIH/3T3 fibroblasts by overexpression of manganese superoxide dismutase: Mechanistic studies

NIH/3T3 mouse fibroblasts were transfected with the cDNA for manganese superoxide dismutase (MnSOD), and two clones overexpressing MnSOD activity were subsequently characterized by comparison with parental and control plasmid-transfected cells. One clone with a 1.8-fold increase in MnSOD activity had a 1.5-fold increase in glutathione peroxidase (GPX) activity (increased GPX-adapted clone), while a second clone with a 3-fold increase in MnSOD activity had a 2-fold decrease in copper, zinc superoxide dismutase (CuZnSOD) activity (decreased CuZnSOD-adapted clone). Increased reactive oxygen species (ROS) levels compared with parental or control plasmid-transfected cells were observed in nonsynchronous cells in the increased GPX-adapted clone, but not in the decreased CuZnSOD-adapted clone. The two MnSOD-overexpressing clones showed different sensitivities to agents that generate oxidative stress. Flow cytometry analysis of the cell cycle showed altered cell cycle progression in both MnSOD-overexpressing clones. During logarithmic growth, both MnSOD-overexpressing clones showed increased mitochondrial membrane potential compared with parental and control plasmid-transfected cells. Both MnSOD-overexpressing clones showed a decrease in mitochondrial mass at the postconfluent phase of growth, suggesting that mitochondrial mass may be regulated by MnSOD and/or ROS levels. Our results indicate that adaptation of fibroblasts to overexpression of MnSOD can involve more than one mechanism, with the resultant cell phenotype dependent on the adaptation mechanism utilized by the cell. J. Cell. Physiol. 175:359–369, 1998. © 1998 Wiley-Liss, Inc.     

Isolation and cross-sensitivity of X-ray-sensitive mutants of V79-4 hamster cells

The V79-4 Chinese hamster line was mutagenized and surviving clones screened for X-ray sensitivity using a replica microwell technique. One slightly sensitive clone and 3 clearly sensitive clones were isolated from approximately 5000 screened, and designated irs 1 to irs 4. The 3 more sensitive clones showed different responses to the genotoxic agents mitomycin C (MMC), ethyl methanesulphonate (EMS) and ultraviolet light (UV). irs 1 showed considerable sensitivity to all the agents tested, in the order MMC much greater than EMS greater than UV. irs 2 and irs 3 had similar sensitivities to EMS and to UV (EMS greater than UV) but irs 3 was more sensitive than irs 2 to MMC. None of these mutants is identical in phenotype to previously published mutants.     

Lethal and mutagenic effects of radiation and chemicals on cultured fish cells derived from the erythrophoroma of goldfish (Carassius auratus)

GEM 199 cells derived from an erythrophoroma of goldfish (Carassius auratus), which had a high plating efficiency, were used to investigate the lethal and mutational effects of radiations (UV and gamma-rays) and chemicals (4NQO and MNNG). The cells were more resistant to gamma-rays than mammalian cells and CAF-MM1 cells derived from the normal fin tissue of goldfish. They were also more resistant to UV-irradiation than CAF-MM1 cells. Photoreactivation after UV-irradiation was present in GEM 199 cells for both survival and mutation. The initial shoulder of the survival curve of UV-irradiated cells was reduced greatly by caffeine, suggesting a high activity of the post-replication repair. The spontaneous mutation frequency to ouabain resistance was 1-5 X 10(-6) clones per viable cell. MNNG was effective in inducing ouabain-resistant mutation, while 4NQO and gamma-rays did not induce mutation.     

Characterization of a UV-resistant strain,UVr-10, established from a human clonal cell line,RSb, with high sensitivity to UV, 4NQO,MNNG and interferon

Characterization was performed of a UV-resistant variant strain, UV^r-10, derived from a human clonal cell line, RSb, with high sensitivity not only to the lethal effect of 254-nm far-ultraviolet (UV) irradiation but also to the effects of 4-nitroquinoline 1-oxide (4NQO) and N-methyl-N′-nitro-N-nitrosoguanidine (MNNG), and to the cell proliferation inhibition (CPI) effect of human leukocyte interferon (HuIFN-α) preparations.Colony-formation assays confirmed the increased resistance of UV^r-10 cells to both UV and 4NQO, but no increased resistance to MNNG. The marked recovery from the inhibition of the total cellular DNA synthesis of UV^r-10 cells, estimated by [methyl-³H]thymidine ([³H]dThd) uptake into the cellular DNA materials, was seen during 6 h after irradiation or 4NQO treatment even under the conditions without the recovery uptake into those of the parent RSb cells, but not during 6 h after MNNG treatment. Comparative studies on the activity of DNA repair synthesis between UV^r-10 and RSb cells, by measuring the extent of UV-, 4NQO- or MNNG-induced unscheduled DNA synthesis (UDS) and DNA repair replication, revealed an increased activity of UV^r-10 cells to UV and 4NQO but no significant increase of the activity to MNNG. These results suggest that increased DNA repair activities of a UV^r-10 cell line may account for its becoming resistant to the lethal effect of UV and 4NQO.Concerning the CPI effect of HuIFN-α, UV^r-10 cells showed increased resistance. Further, the DNA synthesis activity of UV^r-10 cells was not so inhibited by HuIFN-α exposure as that of RSb cells. However, HuIFN-α-exposed UV^r-10 cells showed more enhanced levels of activity of pppA(2′p5′A)_n synthetase (2–5A synthetase) than the exposed RSb, thus suggesting that HuIFN-α could exert enough intracellular effect even in UV^r-10 cells.The implication of the increased resistance of UV^r-10 cells to the effects of UV, 4NQO and HuIFN-α, but not to those of MNNG, is discussed.     

Sister-chromatid exchanges (SCEs), cell survival and mutation in HeLa s3 cells with different sensitivity to alkylating agents; evidence that SCE induction and cell survival or mutation induction are dissociable

We previously isolated N-methyl-N'-nitro-N-nitrosoguanidine (MNNG)-resistant cells, MR from HeLa S3 Mer- cells. In the present study, we have isolated 1-(4-amino-2-methyl-5-pyrimidinyl)methyl-3-(2-chloroethyl)-3-nitrosourea (ACNU)-resistant cells, ACr. The MR cells had only a little O6-methylguanine-DNA methyltransferase (MT) activity, while the ACr cells had increased MT activity and also became resistant to the cytotoxic effect of MNNG. We compared the induction of sister-chromatid exchanges (SCEs), cell survival and mutation in these HeLa S3 cells with different sensitivity to MNNG. The ACr cells were much more resistant than the parental HeLa S3 Mer- cells to cytotoxicity, mutagenicity and SCE induction by MNNG, showing a positive correlation between SCE induction and cell killing or mutation. In contrast, this positive relationship was not observed between HeLa S3 Mer- and MR cells. These results suggest that O6-methylguanine (O6-MeG) is involved in the induction of the biological effects of MNNG such as cytotoxicity, mutagenicity and SCEs, and also indicate that SCE induction does not always correlate with cell killing and mutation.     

The effects of N-methyl-N'-nitro-N-nitrosoguanidine on KB cells. II. Cell sensitivity to the lethal effect of the drug as a function of the cell age and of the nature of the culture medium

We have tested the sensitivity of KB cells to the lethal effect of N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), measured as cell loss within the 20-h period following a 1-h drug treatment, as a function of culture age and of the medium in which treated cells were incubated after elimination of MNNG. We showed that KB cell sensitivity to the lethal effect of the drug decreased with time after seeding when the treated cells were post-incubated in drug-free medium conditioned by untreated cells of the same age as treated ones but not when they were post-incubated in fresh drug-free medium. This difference was due in part to the fact that the conditioned medium had acquired with time a protective activity for treated cells and in part to an increased competence of aging cells to be protected by this medium. By post-incubating treated stationary cells sequentially in both media, we showed that a brief (15 min) post-incubation of the cells in fresh medium was sufficient to trigger cell death even if the cells were afterwards transferred to conditioned medium. In contrast, long post-incubation in fresh medium did not cause cell death if the cells were first post-incubated in conditioned medium for about 3 h. We conclude that: the medium acted on cell sensitivity to the lethal effect of MNNG through its growth regulatory ability; quiescent cells were less sensitive to the drug than growing cells; the sensitive phase of the cell was located before S; cell hypersensitivity might be due to deficient repair of cellular lesions rather than to increased lesion formation.     

Anti-idiotypic antibodies against UV-induced tumor-specific CTL clones. Preparation in syngeneic combination

In this study, we first established several CTL clones of (BALB/c x C57BL/6)F1 origin that were specific for either syngeneic UV female 1 or UV male 1 fibrosarcoma cell lines. All the CTL clones had Thy-1+ Lyt-2+ L3T4- phenotypes and showed Kd restriction when lysing the corresponding target cells. Sera obtained from syngeneic animals immunized with three CTL clones, 10B-5 for UV female 1, and CTL9 and CTL10 for UV male 1, showed specific inhibition of target cell lysis with the corresponding CTL clones. The inhibitory activities were found in sera of the majority of immunized animals. Because the inhibitory activity resides in protein A-binding fraction, mAb were produced by hybridizing spleen cells of hyperimmune animals. N1-56 was thus obtained from a mouse immunized with 10B-5 CTL clone reactive with UV female 1. N1-56 was clonotype specific, reacting with 10B-5 but not with other CTL lines or leukemia cell lines. No N1-56+ cells were detectable in thymocytes, lymph node cells, or spleen cells of either naive or UV female 1-immune CB6F1 mice. Immunoprecipitation showed that N1-56 reacts with 90,000 Mr molecules on 10B-5 CTL clone under nonreducing conditions and 45,000 Mr molecules under reducing conditions, indicating its reactivities with idiotypic determinants of TCR on the CTL clone. N1-56 inhibited lytic activity of 10B-5, but neither N1-56 nor alpha-10B-5 hyperimmune serum inhibited that of alpha-UV female 1 mixed lymphocyte tumor cell culture cells. N1-56 induced proliferation of 10B-5 without addition of Ag.     

Induction of gene mutations and the lethal action of ultraviolet rays in synchronized Chinese hamster cells

Lethal and mutagenic effects of UV light were studied in two synchronized UV-sensitive Chinese hamster cell clones differing in the degree of sensitivity (CHS1, CHS2). It is shown that the phase of mitosis is most resistant to the lethal effect of UV. The sensitivity of both cell clones increases in the pre-synthetic phase and reaches its maximum during the phase of DNA synthesis. Positive correlation of cell sensitivity to mutagenic and lethal action of UV was observed when studying induced mutability in both cell clones during the phase of DNA synthesis. However, the study of the mutagenic effect of UV on different phases of the synthesis. However, the study of the mutagenic effect of UV on different phases of the cell cycle (M, G1, S) in the less UV-sensitive cell clone has revealed that the maximal mutation yield takes place when cells are irradiated at G1 (CHS1). The discrepancy observed may be due to different probability of the phenotypic detection of pre-mutational lesions, arising at different phases of the cell cycle. It is shown that only one cell generation is necessary for the expression of pre-mutational changes. These data allow to conclude that the increased mutation rate observed at G1 (as compared with S) reveals rather a probability of the expression but not of the occurrence of pre-mutational lesions. It is suggested that the fixation of mutations in the cells studied proceeds during the post-replication repair synthesis.     

Surface Membrane Glycopeptides Which Coincide with Virus Transformation and Tumorigenesis

Glycopeptides from the surface of clones of hamster embryo cells were examined at various intervals after infection with polyoma virus. Two types of transformed cells were examined: (i) clones that showed delayed transformation or an initially low tumorigenicity, and (ii) clones that were rapidly transformed showing an initially high tumorigenicity. The glycopeptides were removed from the cell surface by trypsin and, after Pronase digestion, were examined by filtration through Sephadex G-50. With delayed transformation, a specific group of glycopeptides was increasingly evident over an 85-day period as the cells showed phenotypic properties of transformation and the ability to form tumors. In the other series, all but one clone of hamster embryo cells showed rapid transformation after infection with polyoma virus. This clone was less tumorigenic and showed little of the specific glycopeptides. In all cases of delayed or rapid transformation examined, the specific group of glycopeptides increased proportionately to the ability of the cells to form tumors. All of the cells derived from progressively growing tumors formed by injection of these transformed hamster cells into adult animals showed an abundance of this group of glycopeptides. These results suggest that specific surface membrane glycopeptides accompany viral transformation and tumorigenesis.     

Comparative mutagenic effects of ethyl methane-sulfonate, n-methyl-n'-nitro-n-nitrosoguanidine, ultraviolet radiation and caffeine on Dictyostelium discoideum.

A high frequency of morphogenetic mutants of Dictyostelium discoideum can be induced by treatment with MNNG under conditions which result in relatively low cell killing. Six temperature-sensitive growth mutants induced by this treatment were isolated by replica plating. Among these, five showed spontaneous reversion rates of 10(-4) to 10(-5). The mutagenic activity of ems, measured for the induction of both morphogenetic and temperature-sensitive mutants, was weaker than that of MNNG and UV radiation. High frequencies of morphogenetic mutants were obtained only with doses of UV irradiation that resulted in high killing of cells or spores. Caffeine, at concentrations that slightly decreased the growth rate of amoebae in axenic medium, induced morphogenetic defects and also enhanced the mutagenic effect of UV irradiation. However, all the aggregateless clones derived from caffeine treatment that were studied reverted to the wild-type phenotype after a variable number of clonal re-isolations.     

Genome digestion is a dispensable consequence of physiological cell death mediated by cytotoxic T lymphocytes.

We examined virally transformed murine fibroblast clones as targets for cytotoxic T lymphocyte (CTL)-triggered lysis and genome digestion. Strikingly, while all clones were essentially equivalent in the ability to be lysed, one clone, SV3T3-B2.1, failed to exhibit genome digestion associated with CTL attack. Other aspects of the physiological cell death process, including loss of adhesion and nuclear envelope breakdown (lamin phosphorylation and solubilization), were not altered in this clone. The absence of genome digestion associated with CTL-induced cell death correlated with the absence of endodeoxyribonuclease activity in the nuclei of that clone. Characterization of the activity affected identifies a calcium-dependent, DNase I-like endonuclease of approximately 40 kDa, normally present constitutively in all cell nuclei, as the enzyme responsible for genome digestion associated with CTL-mediated cell death. These observations indicate that neither genome digestion per se nor its consequences [such as activation of poly(ADP-ribose) polymerase] are essential for cell death resulting from the triggering of this cell suicide process.     

Reconstitution of active recombinant Shiga toxin (Stx)1 from recombinant Stx1-A and Stx1-B subunits independently produced by E. coli clones

Escherichia coli clones expressing recombinant Shiga toxin (Stx)1-A and recombinant Stx1-B subunits, were established. Culture supernatants of these clones were examined for inhibitory activity on in vitro protein synthesis using luciferase as a reporter enzyme. Culture supernatant of the clone expressing Stx1-A, but not Stx1-B, showed the inhibitory activity. Neither recombinant Stx1-A nor Stx1-B showed Vero cell cytotoxicity. For reconstitution of biologically active toxin, the culture supernatants of the Stx1-A clone and the Stx1-B clone were mixed. The reconstituted recombinant Stx1 showed both Vero cell cytotoxicity and inhibition of in vitro protein synthesis.     

Cloned auto-Ia-reactive T cells elicit lichen planus-like lesion in the skin of syngeneic mice

To explore the physiologic or pathologic roles of autoreactive T cells, we examined immunological functions of several autoreactive mouse T cell clones in vitro and in vivo. All of the T cell clones were Lyt-2-, L3T4+ and showed self-I region-restricted proliferative responses (one clone was self-I-E restricted, the other clones were self-I-A restricted). One clone derived from C57BL/6 mouse and reactive to the self-I-Ab product (clone bb1-2) showed cross-reactivity to the I-Ak product. Among four such auto-Ia-reactive T cell clones examined, one clone produced fairly large amounts of interleukin 2 (IL 2) in response to syngeneic stimulator cells, and mediated help for the in vitro cytotoxic T cell (CTL) responses of syngeneic thymocytes, whereas this clone did not mediate in vitro antibody responses of syngeneic B cells. The other three clones were producers of small amounts of IL 2 and did not mediate the in vitro CTL responses. Among the three clones, clone bb1-2 showed strong regulatory function, and clone kk-1 (B10.BR origin and self-I-Ak reactive) showed weak regulatory function in vitro antibody responses of syngeneic B cells. The physiologic or pathologic roles of autoreactive T cells in vivo were explored by injecting subcutaneously clone kk-1 T cells or clone bb1-2 T cells into the footpads of the respective syngeneic mice. Clone kk-1 T cells injected into syngeneic mice elicited swelling of the footpad and marked accumulation of mononuclear cells in the dermis, leaving the epidermis intact, as in the delayed-type hypersensitivity reaction. As a notable finding, clone bb1-2 T cells injected into syngeneic mice elicited marked swelling of the footpad and lichen planus-like skin lesions, i.e., infiltration of lymphocytes in the epidermis and epidermal cell damage. The lymphocytes infiltrating in the epidermis were evaluated, as were the injected clone bb1-2 T cells expressing the Lyt-1.2 phenotype, by examination of the skin lesions elicited in C3H/He mice (H-2k, Lyt-1.1, 2.1) by the clone T cells. Clone bb1-2 T cells exerted in vitro cytotoxicity against H-2b and H-2k target cells, whereas clone kk-1 T cells did not show any cytotoxic activity, indicating a correlation between the cytotoxic activity of clone bb1-2 T cells and their ability to elicit lichen planus-like lesions.(ABSTRACT TRUNCATED AT 400 WORDS)     

Isolation and characterization of dexamethasone-resistant mutants from human lymphoid cell line CEM-C7.

Fifty-four independent dexamethasone-resistant clones were isolated from the clonal, glucocorticoid-sensitive human leukemic T-cell line CEM-C7. Resistance to 1 microM dexamethasone was acquired spontaneously at a rate of 2.6 X 10(-5) per cell per generation as determined by fluctuation analysis. After mutagenesis with N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), the phenotypic expression time for dexamethasone resistance was determined to be 3 days. Spontaneous acquisition of resistance to 0.1 mM 6-thioguanine appeared to occur at a much slower rate, 1.6 X 10(-6) per cell per generation. However, the expression time after MNNG mutagenesis for this resistant phenotype was greater than 11 days, suggesting that the different rates of acquisition for the two phenotypes measured by fluctuation analysis were the results of the disparate expression times. The mutagens ICR 191 and MNNG were effective in increasing the dexamethasone-resistant fraction of cells in mutagenized cultures; ICR 191 produced a 35.6-fold increase, and MNNG produced an 8.5-fold increase. All the spontaneous dexamethasone-resistant clones contained glucocorticoid receptors, usually less than half of the amount found in the parental clone. They are therefore strikingly different from dexamethasone-resistant clones derived from the mouse cell lines S49 and W7. Dexamethasone-resistant clones isolated after mutagenesis of CEM-C7 contained, on the average, lower concentrations of receptor than did those isolated spontaneously, and one clone contained no detectable receptor. These results are consistent with a mutational origin for dexamethasone resistance in these human cells at a haploid or functionally hemizygous locus. They also suggest that this is a useful system for mutation assay.     

Isolation of UV-sensitive variants of human FL cells by a viral suicide method.

A new method (viral suicide method) for the isolation of UV-sensitive mutants is described. Colonies of mutagenized human FL cells were infected with UV-irradiated Herpes simplex viruses and surviving ones which seemed to be deficient in host cell reactivation (HCR) were examined for their UV sensitivity. Nineteen of 238 clones examined were sensitive to UV irradiation at the time of the isolation. After recloning, four of these clones have been studied and two (UVS-1 and UVS-2) of them are stable in their UV sensitivity for 4 months in culture. UV sensitivity of UVS-1, UVS-2, and the parental FL cells are as follows: the extrapolation numbers (n) are 2.2, 2.1, and 1.8 and mean lethal doses (D0) are 2.9, 3.7, and 7.8 J/m2 for UVS-1, UVS-2, and the parental FL cells, respectively- They are no more sensitive than FL cells to X-irradiation. The ability of HCR in UVS-2 cells is apparently lower than that in FL cells, whereas UVS-1 cells are the same as FL cells in the ability.     

Human T cell clones exerting multiple cytolytic activities show heterogeneity in susceptibility to inhibition by monoclonal antibodies

Human cytotoxic T cell clones (CTL) were obtained by limiting dilution after in vitro priming against an allogeneic Epstein Barr virus (EBV)-transformed B cell line (B-LCL) BSM. Three OKT3+, OKT8+ E rosette-forming (RFC) but EA gamma-RFC- clones with cytotoxic activity against the stimulator cell and one "non-cytolytic" clone were expanded for over 50 generations and further characterized. Clone G9 showed allospecific lysis of Cw3+ lymphocytes and B cell lines. Three cytolytic clones (G9, D11, and A3) showed cytotoxicity to the stimulator B-LCL, to the human plasma cell leukemia-derived line LICR-LON-HMY2 and to short-term cultured melanoma cells (O-mel). Four other EBV-transformed B-LCL unrelated to the stimulator B-LCL were not lysed. These clones also exerted cytotoxic activity against NK-sensitive target cells (TC), e.g., the erythroleukemia cell line K562. Other NK-sensitive TC, e.g., lymphoma-derived Daudi cells, were killed provided they were pretreated with phytohemagglutinin (PHA). Cytolytic activity against the B-LCL cell LICR-LON and O-mel, but not against K562 or PHA-treated target cells, was inhibited by monoclonal anti-HLA ABC antibodies (MCA). The cytolytic activities of OKT3+,8+ clones G9 and A3 but not that of OKT3+,8+ clone D11 were inhibited by OKT8. Another MCA, 13.3, directed against the murine glycoprotein T-200, inhibited the cytolytic activity of clone D11 against K562 but not against the stimulator cells. Clone G9 was not inhibited by MCA 13.3. The four clones, including the OKT4+ "non-cytotoxic" clone K12, exerted lytic activity against TC that are normally resistant to lysis provided these TC were pretreated with PHA. The TC specificity range of the clones was confirmed by cold target inhibition experiments. A correlation between blocking of lytic activity by cold TC and the percentage of conjugate formation with the particular cold TC was observed. Because these clones also show differential susceptibility to inhibition of lysis by various MCA, it is concluded that human cytotoxic T cell clones can exert multiple lytic activities, i.e., the operationally defined lytic mechanisms differ at least at certain stages of the lytic cycle.     

Chemical and viral transformation of cultured skin fibroblasts from patients with familial polyposis coli

Treatment of skin fibroblasts from an FPC patient with 4NQO or MNNG followed by sequential passaging caused morphological changes of the cells, which showed characteristics of transformed cells such as a high frequency of colony formation in agarose, increased growth ability, and chromosomal abnormalities. This and other fibroblast lines from 5 of 12 FPC patients had an increased susceptibility to 4NQO cytotoxicity, which was caused by enhanced 4NQO-reductase activity rather than by reduced DNA repair. However, the susceptibility to cytotoxicity of MNNG and repair of MNNG-damaged DNA were normal in FPC cells. The tumor promoters TPA and DHTB enhanced the frequency of chemical transformation of the FPC fibroblasts, and protease inhibitors suppressed the promoter-enhanced transformation. The skin fibroblasts from many FPC patients exhibited increased susceptibility to transformation by murine sarcoma viruses. Analysis of the viral DNA and RNA after infection revealed that the increased susceptibility is determined at an early stage of transformation. Two out of 5 MNNG-transformed clones of FPC fibroblasts, isolated from agarose, had increased expression of c-Ki-ras or c-Ha-ras, and 4 of 4 MSV-transformed clones showed high expression of viral Ki-ras. These clones grew further after isolation from agarose, but were mortal and did not form tumors in nude mice. The present results suggest that additional changes in morphologically transformed FPC fibroblasts are required for malignant transformation.     

Correlation between lethality and DNA single-strand breaks in Bacillus subtilis cells treated with N-methyl-N'-nitro-N-nitrosoguanidine

The effects of N-methyl-N′-nitro-N-nitrosoguanidine (MNNG) treatment two Bacillus subtilis strains which exhibit different UV sensitivities were monitored at both the cellular (survival) and subcellular (DNA strand break) levels. The MNNG-induced single strand DNA breaks (SSB) in either strain, as measured by alkaline sucrose gradient centrifugation, were shown to be well correlated with lethality. These DNA lesions were shown by a computer simulation to be randomly induced. Cell survival after MNNG treatment is inversely related to the number of replication forks per cell which in turn depends upon the doubling time of the culture and the growth phase. The production of single-strand breaks and cell killing are proportional to the log of the initial MNNG concentration and may imply that decomposition of the mutagen is (pseudo) second order.     

Competence mutants. 3. Responses to radiations

Class 3 com(-) mutants [normal in deoxyribonucleic acid (DNA) uptake but poor in ability to transform] were investigated with regard to ultraviolet (UV) and X-ray sensitivity of colony-forming ability and with regard to their ability to be transformed by UV- and X-ray-irradiated DNA. Three mutants, com(-)40, 60, and 78, were highly UV-sensitive in colony-forming ability. None of the mutants was more sensitive than wild type to UV-irradiated transforming DNA; in fact, six of the mutants showed considerably greater resistance. Two of the mutants (com(-)40 and 60) were slightly more sensitive to X ray in colony formation, whereas most of the mutants showed some degree of sensitivity to X-ray-irradiated transforming DNA. In addition, the physical fate of X-ray-irradiated transforming DNA has been examined, and in one case (com(-)48) there was a significant drop in sedimentation value of X-ray-irradiated donor DNA after uptake by recipient cells. The com(-) mutants analyzed have been classified on the basis of their UV and X-ray sensitivities, and, where appropriate, possible biochemical lesions have been implicated.