Caffeine inhibition of postreplication repair of UV-damaged DNA in mouse epidermal cells

The effect of caffeine (0.25–1.5 mM) on UV-irradiated (5 and 10 J/m²) primary cultures of mouse epidermal cells (EPD) and an in vitro transformed cell line (PDV) was studied at the cellular and molecular levels. A synergistic reduction in cell survival induced by caffeine with UV-irradiation was found in the PDV cells at 10 J/m² but not at 5 J/m². When conversion of low molecular weight newly-synthesized DNA to high molecular weight DNA was studied in both cell types, caffeine at 1.5 mM had no effect on this conversion in unirradiated cultures. At 5 J/m², caffeine had a transitory inhibitory effect on this conversion. However, at 10 J/m² caffeine had a strong permanent inhibitory effect on this conversion at doses higher than 0.5 mM in PDV cells and higher than 0.25 mM in EPD cells. This apparent inhibition of elongation by caffeine in irradiated cells could not be accounted for by an effect on the rate of DNA synthesis. In PDV cells there was a direct correlation in terms of effective caffeine dose level between synergistic reduction in cell survival after UV and the effect on DNA elongation. Irradiated EPD cells were more sensitive to the inhibitory effect of caffeine on DNA elongation.     

Ataxia telangiectasia: an anomaly in DNA replication after irradiation.

The effect of increasing dose of gamma-radiation on DNA synthesis in an ataxia telangiectasia lymphoblastoid cell line and a number of control lymphoblastoid cell lines was investigated. No significant inhibition of low molecular weight DNA synthesis was observed in the AT cell line at doses which resulted in considerable inhibition in the control cell lines. At higher doses, 600 to 800 rad, low molecular weight DNA synthesis and chain elongation were enhanced in the AT cell line. At time course study of DNA synthesis after 200 rads of gamma-radiation, revealed no appreciable inhibition of low and high molecular weight DNA synthesis up to 60 minutes postirradiation. However, in control cell lines, overall DNA synthesis was depressed to a level 50% of that shown by the unirradiated cells.     

Inhibition of mammalian cell DNA synthesis by ionizing radiation

A semi-log plot of the inhibitory effect of ionizing radiation on the rate of DNA synthesis in normal mammalian cells yields a two-component curve. The steep component, at low doses, has a D0 of about 5 Gy and is the result of blocks to initiation of DNA replicons. The shallow component, at high doses, has a D0 of greater than or equal to 100 Gy and is the result of blocks to DNA chain elongation. The target size for the inhibition of DNA replicon initiation is about 1000 kb, and the target size for inhibition of DNA chain elongation is about 50 kb. There is evidence that the target for both components is DNA alone. Therefore, the target size for inhibition of DNA chain elongation is consistent with the idea that an effective radiation-induced lesion in front of the DNA growing point somehow blocks its advance. The target size for inhibition of DNA replicon initiation is so large that it must include many replicons, which is consistent with the concept that a single lesion anywhere within a large group (cluster) of replicons is sufficient to block the initiation of replication of all replicons within that cluster. Studies with radiosensitive human cell mutants suggest that there is an intermediary factor whose normal function is necessary for radiation-induced lesions to cause the inhibition of replicon initiation in clusters and to block chain elongation; this factor is not related to poly(ADP-ribose) synthesis. Studies with radiosensitive Chinese hamster cell mutants suggest that double-strand breaks and their repair are important in regulating the duration of radiation-induced inhibition of replicon initiation but have little to do with effects on chain elongation. There is no simple correlation between inhibition of DNA synthesis and cell killing by ionizing radiation.     

The effect of cypermethrin on the feeding of mustard beetles Phaedon cochleariae (F.)

Cypermethrin deposits on sprayed (3, 6, 9, 12 and 15 g ha^-1) radish leaves caused a significant antifeedant effect on third instar larvae and adults of mustard beetles.
There was a significant inverse relationship between feeding and dose for both stages. In the case of adults on deposits of 1, 3 and 6 g hafeeding was reduced by 60–75% but no mortality was recorded. Much less uniform feeding was associated with higher application rates (9, 12 and 15 g ha-^I) with low mortality at the two highest doses. The mean areas of the individual holes eaten by larvae or adults in either control or treated leaves, did not differ significantly. The number of holes eaten was negatively related to application rate. The antifeedant effect was observed with low concentration of both technical and formulated cypermethrin.     

Effect of cytosine arabinoside on replicon initiation in human lymphoblasts

Cytosine arabinoside inhibited DNA synthesis in human lymphoblasts by inhibiting the initiation of DNA replication units. This effect was observed by a decrease in the incorporation of (³H) thymidine into low molecular weight DNA analyzed by velocity sedimentation in alkaline sucrose gradients. In contrast, there was no detectable effect on chain elongation and joining of those molecules that initiated replication before addition of the drug. These data indicate that cytosine arabinoside acts preferentially at the level of initiation of DNA replication rather than chain elongation.     

Influence of dietary carrot on cytostatic drug activity of cyclophosphamide and its main directly acting metabolite: induction of sister-chromatid exchanges in normal human lymphocytes, Chinese hamster ovary cells, and their DNA repair-deficient cell lines

We have utilized an in vivo drug metabolism technique (i.e. injecting the chemical into rat and isolating plasma with metabolites from blood) for detecting the genotoxicity of indirectly acting cyclophosphamide and its directly acting metabolite phosphoramide mustard in cultures of human peripheral blood lymphocytes of normal individuals, Fanconi's anaemia (FA) and aplastic anaemia (AA) patients, wild-type Chinese hamster ovary cells (CHO) and its DNA repair-deficient mutant 43-3B cells. In addition, the influence of dietary carrot on the clastogenic activity of these 2 chemicals in all the different cell types was studied. The genotoxicity was assessed by the ability of the metabolites of these agents to induce sister-chromatid exchanges in the treated cells. A dose-dependent increase in the frequencies of sister-chromatid exchanges was observed in all cell strains following treatment with activated metabolites of cyclophosphamide or phosphoramide mustard. The sensitivity of lymphocytes from normal donors, FA and AA patients to these 2 chemicals was similar. In CHO cell lines the induced frequency of sister-chromatid exchanges was slightly higher after treatment with the metabolites of cyclophosphamide than with phosphoramide mustard. The mutant 43-3B cells responded with higher frequencies of SCEs when compared to the wild-type CHO cells, about 1.5-2-fold, at low doses. Pretreating of rats with fresh carrot juice effectively inhibited the increase in the frequencies of sister-chromatid exchanges induced by cyclophosphamide in wild-type and mutant CHO cells (P less than 0.01), and to a lesser extent in human lymphocytes (p less than 0.05). In contrast, no inhibitory effect was observed in any of these cell types in combination of dietary carrot for direct acting phosphoramide mustard on the frequency of induced sister-chromatid exchanges. The possibility that dietary carrot exerts its antimutagenic effect by affecting the processes of enzymatic activation of cyclophosphamide is discussed.     

Detection of DNA damage in individual cells by flow cytometric analysis using anti-DNA monoclonal antibody

A new method for the measurement of DNA damage in individual cells treated with alkylating agents is described. The method is based on the binding of anti-DNA monoclonal antibody to DNA in situ. Monoclonal antibody F7-26 was obtained by fusion of mouse myeloma cells with spleen cells isolated from a mouse immunized with DNA treated by nitrogen mustard (HN2). Binding of antibody was evaluated by flow cytometry with indirect immunofluorescence. No binding of antibody to DNA in non-treated HeLa S3 cells was detected. Treatment of cells with HN2 or L-phenylalanine mustard induced binding of antibody to DNA in situ. Binding of antibody was observed after treating cells with doses of drugs which reduced the surviving fraction below 20%. Intensity of binding increased in proportion to the drug dose. Two-parameter analysis for the antibody binding and DNA content showed no binding of antibody to replicating DNA in control cells. In HN2-treated cells a cell subset with the lowest antibody binding was observed among cells in G1 phase. Binding of antibody to DNA in HN2-treated cells was eliminated by single-strand (ss) specific S1 nuclease. In competition assay, antibody was inhibited by thermally denatured DNA, but not by native double-stranded (ds) DNA, RNA, nucleosides and deoxyribohomopolymers. Binding of monoclonal antibody specific for the determinants expressed on ssDNA to the cells treated with alkylating agents may be attributed to local DNA denaturation. Potentiation of L-phenylalanine mustard cytotoxicity by buthionine sulfoximine or hyperthermia was accompanied by increased antibody binding to cellular DNA. Immunoreactivity of cells with the monoclonal antibody F7-26 may be a useful probe for the assessment of cell damage induced by alkylating agents, especially in heterogeneous cell populations.     

Mode of inhibition of DNA replication in neocarzinostatin-treated HeLa cells

The effect of antitumor antibiotic neocarzinostatin on DNA replication in HeLa cells was studied by pulse-labeling of DNA with [3H]thymidine and sedimentation analysis of the DNA with alkaline sucrose gradients. The drug, which produced DNA damage, primarily inhibited the replicon initiation in the cells at low doses (less than or equal to 0.1 microgram/ml), and at high doses (greater than or equal to 0.5 microgram/ml) inhibited the DNA chain elongation. An analysis of the number of single-strand breaks of parental DNA, induced by neocarzinostatin, indicated that inhibition of the initiation occurred with introduction of single-strand breaks of less than 1.5 . 10(4)/cell, while inhibition of the elongation occurred with introduction of single-strand breaks of more than 7.5 . 10(4)/cell. Assuming that the relative molecular mass of DNA/HeLa cell was about 10(13) Da, the target size of DNA for inhibition of replicon initiation was calculated to be about 10(9) Da, such being close to an average size of loop DNA in the cell and for inhibition of chain elongation, 1-2 . 10(8) Da which was of the same order of magnitude as the size of replicons. Recovery of inhibited DNA replication by neocarzinostatin occurred during post-incubation of the cells and seemed to correlate with the degree of rejoining of the single-strand breaks of parental DNA. Caffeine and theophylline enhanced the recovery of the inhibited replicon initiation, but did not aid in the repair of the breaks in parental DNA.     

The Allelopathic Effects of Sunflower and Wheat Root Exudates on <i>Sinapis arvensis and Sinapis alba</i>

In this study, we aimed to investigate the allelopathic effects of sunflower and wheat root exudates on the common weeds such as wild mustard and white mustard in our region. The root exudates which were obtained by soaking 8 weeks old sunflower and wheat seedlings (20 or 40 seedlings) in 100 mL of distilled water for 3 days were applied to the leaves of wild mustard and white mustard. In order to compare the allelopathic effect, the recommended dose (1 g.da^-1 ) and twice the recommended dose (2 g.da^-1 ) of Gromstor (Tribenuron-methyl), a herbicide preferred by farmers for the chemical control of these weeds was also applied. The allelopathy was performed for wild mustard and white mustard seedlings by the measurement of different physiological and biochemical parameters, such as chlorophyll a, chlorophyll b, total chlorophyll, carotenoid, proline, total protein amounts and superoxide dismutase enzyme activity. The amounts of total chl and carotenoid in wild mustard leaves decreased in all treatment groups compared to control. The highest decrease in total chl (50.93%) and carotenoid (46.69%) was oberved in the treatment of 40 wheat seedlings. 100 mL^-1 distilled water. In the white mustard leaves, the amount of total chl in all treatment groups except the treatment group of Gromstor 2 g.da^-1 and carotenoid in all treatment groups increased compared to the control. The highest increases again were observed in 40 wheat seedlings. 100 mL^-1 distilled water treatment. The proline amounts in wild mustard and white mustard increased in all treatment groups. The highest increase was observed for the treatment of 20 wheat seedlings. 100 mL^-1 distilled water in wild mustard (459.69%) and 40 sunflower seedlings. 100 mL^-1 distilled water in white mustard plant (104.70%). In superoxide dismutase enzyme activities, treatments decreased activity except treatment of 40 sunflower seedling root exudate in wild mustard, while increased activity outside commercial herbicide treatment in white mustard. The results showed that sunflower and wheat root exudates have allelopathic effects on wild mustard and white mustard weeds. It is thought that the study will be a reference for new studies that will enable the use of plant root exudates as bioherbicides or foliar fertilizers and will contribute to the fight against weeds in organic agriculture.     

Formation of nascent DNA molecules during inhibition of replicon initiation in mammalian cells.

X-irradiation of mammalian cells with moderate doses (100-1000 rads) inhibits the initiation of DNA replicons. This inhibition is observed as depressed amounts of radioactivity at low molecular weights when the DNA from the cells is analysed by velocity sedimentation in alkaline sucrose gradients at 30 min after irradiation. There is no detectable effect on chain elongation and joining of those molecules that do initiate replication; this is indicated by the presence of the same amounts of radioactivity in nascent DNA molecules of high molecular weights from control and irradiated cells. The labeling of DNA molecules that initiated replication before irradiation continues unhindered for more than 60 min after irradiation, which is observed as peaks of radioactivity at high S values in alkaline sucrose gradients from irradiated cells. These data indicate that DNA replication in mammalian cells proceeds by continuous joining of nascent molecules that initiate almost simultaneously at origins at various distances from one another. Some of the interorigin distances are much greater than others, implying that large replicons make up a significant component of mammalian DNA.     

Toxic effects of mechlorethamine on mammalian respiratory mucociliary epithelium in primary culture

Mechlorethamine (HN2) is an alkylating agent usually used in cancer chemotherapy. Nevertheless, HN2 is extremely toxic and its use is accompanied by severe side-effects that may cause lung complications. Many studies report the morphological and biochemical modifications induced by sulfur mustard (SM) but no report has been published concerning the toxic effects of HN2 on the ultrastructural and functional activity of surface respiratory epithelial cells. This study was performed on rabbit tracheal epithelium (RTE) cells in primary culture. The functional activity of the culture was evaluated by measuring the ciliary beating frequency (CBF) of the ciliated cells using a videomicroscopic method, and the culture growth was determined by an image analysis system. The morphological aspects of the cells were analyzed by light, scanning electron, and transmission electron microscopy. An important inhibition of cell growth was observed associated with a detachment of the outgrowth cells. Morphological changes were expressed by vacuolization, increases in the intercellular spaces, and by disorganization of the cytoskeleton associated with a specific attack of the ciliated cells that show ciliary blebbing. The sudden CBF inhibition is more likely due to the detachment and the death of the ciliated cells than to a specific ciliotoxic effect of HN2. All these observations demonstrated the high sensitivity of respiratory epithelial cells to HN2 and showed that HN2-induced injuries were irreversible, and time- and dose-dependent.Abbreviations CBF ciliary beating frequency - HN2 nitrogen mustard, or mechlorethamine - RTE rabbit tracheal epithelium - SEM scanning electron microscopy - SM sulfur mustard - TEM transmission electron microscopy     

Host-cell reactivation of UV-irradiated and chemically-treated herpes simplex virus-1 by xeroderma pigmentosum, XP heterozygotes and normal skin fibroblasts

The host-cell reactivation of UV-irradiated and N-acetoxy-2-acetylamino-fluorene-treated herpes simplex virus type 1 strain MP was studied in normal and xeroderma pigmentosum human skin fibroblasts. Virus treated with either agent demonstrated lower survival in XP cells from complementation groups A, B, C and D than in normal fibroblasts. The relative reactivation ability of XP cells from the different genetic complementation groups was found to be the same for both irradiated and chemically treated virus. In addition, the inactivation kinetics for virus treated with either agent in the XP variant were comparable to that seen in normal skin fibroblasts. The addition of 2 or 4 mmoles caffeine to the post-infection assay medium had no effect on the inactivation kinetics of virus treated by either agent in the XP variant or in XP cells from the different genetic complementation groups. Treatment of the virus with nitrogen mustard resulted in equivalent survival in normal and XP genetic complementation group D cells. No apparent defect was observed in the ability of XP heterozygous skin fibroblasts to repair virus damaged with up to 100 μg N-acetoxy-2-acetylaminofluorene per ml. These findings indicate that the repair of UV-irradiated and N-acetoxy-2-acetylaminofluorene-treated virus is accomplished by the same pathway or different pathways sharing a common intermediate step and that the excision defect of XP cells plays little if any role in the reactivation of nitrogen mustard treated virus.     

DNA degradation and reduced recombination following UV irradiation during meiosis in yeast (Saccharomyces cerevisiae)

Summary Irradiation of meiotic yeast cells with moderate doses of ultraviolet irradiation (1,600 erg/mm²) leads to the arrest of premeiotic DNA synthesis, massive (5–40%) DNA degradation, and a 40–50% loss of cell viability. In contrast, such doses of UV irradiation had a minor effect on viability (15–20% loss) of logarithmically growing cells, and no comparable DNA degradation was observed in irradiated synchronized vegetative cells. Meiotic recombination is also affected by UV irradiation. When administered at a stage comparable to meiotic prophase, low doses of irradiation result in a reduction in recombination frequency without significantly affecting cell viability.     

Repair replication and unscheduled DNA synthesis in mammalian cell lines showing differential sensitivity to alkylating agents

Repair replication has been measured by CsCl density gradient centrifugation in cell lines showing differential sensitivity to mono- and bifunctional alkylating agents. A correlation between cellular sensitivity as measured by the D₀ value and amount of repair replication was demonstrated after exposure of Yoshida cells to nitrogen mustard (HN2) and methylene dimethanesulphonate (MDMS). No differences in the amount of repair replication after methyl methanesulphonate (MMS) were observed in two L5178Y cell lines which differed in sensitivity by virtue of the shoulder size only. The Yoshida cell lines showed no difference in sensitivity to MMS and no difference in amount of repair replication. Incorporation of tritiated thymidine 9[³H]TdR) after drug treament was also measured by autoradiography. The qualitative differences observed between the two cell lines were similar to those obtained in density gradient experiments. The temporal pattern of [³H]TdR uptake indicated that the reduced repair replication observed in the sensitive line after HN2 and MDMS is not due to slower synthesis. The kinetics of [^3H]TdR incorporation differed for all three mutagens suggesting that different enzymes may be involved in each case.     

DNA REPLICATION: DIRECTION AND RATE OF CHAIN GROWTH IN MAMMALIAN CELLS

Using pulse labeling techniques with [³H]thymidine or [³H]cytidine, combined with DNA fiber autoradiography, we have investigated the direction and rate of DNA chain growth in mammalian cells. In general, chain elongation proceeds bidirectionally from the common origin of pairs of adjacent replication sections. This type of replication is noted whether the DNA is labeled first with [³H]thymidine of high specific activity, followed by [³H]thymidine of low specific activity or the sequence is reversed. Approximately one-fifth of the growing points have unique origins and in these replication units, chain growth proceeds in one direction only. Fluorodeoxyuridine and hydroxyurea both inhibit DNA chain propagation. Fluorodeoxyuridine exerts its effect on chain growth within 15–23 min, while the effect of hydroxyurea is evident within 15 min under conditions where the endogenous thymidine pool has been depleted by prior treatment with fluorodeoxyuridine. Puromycin has no effect on chain growth until 60 min after addition of the compound, even though thymidine incorporation is more than 50% reduced within 15 min. After 2 h of treatment with puromycin, the rate of chain growth is reduced by 50%, whereas thymidine incorporation is reduced by 75%. Cycloheximide reduces the rates of DNA chain growth and thymidine incorporation 50% within 15 min, and, on prolonged treatment, the decrease in rate of chain growth generally parallels the reduction in thymidine incorporation.     

Invasion Pattern of Herb Garlic Mustard (Alliaria petiolata) in High Quality Forests

The invasion of non-indigenous plant species poses a severe threat to native plant communities. Garlic mustard (Alliaria petiolata) is a naturalized European biennial herb that has spread rapidly through the eastern US and adjacent Canada. To determine garlic mustard rate of spread, eleven permanent plots (50×25 m) were located in seven high quality (relatively undisturbed) forests in the early stages of invasion. Garlic mustard presence was recorded within six 50×2 m permanent belt transects, and density and percent cover by age class were recorded in 36 permanent 1 m² quadrats, between 1989 and 1992, and again in 1997. Garlic mustard spread at an average rate of 5.4 m per year between 1989 and 1992, in all plots combined. Within individual plots rate of spread varied substantially, with location of the front increasing up to 36 m and decreasing as much as 18 m between years. While the front alternately advanced and retreated, over time garlic mustard consistently advanced through all forests. Rate of spread was influenced by establishment of satellite populations, and disturbance (wind-throw and flooding). The pattern of spread within plots was one of a ragged advancing front, supplemented by establishment of satellite populations 6–40 m distant from the front, which then coalesced with the main population. Garlic mustard presence between 1989 and 1997 increased significantly within all plots, and in each age class within each plot. The greatest increases occurred in plots where this plant was initially rarest. Garlic mustard cover and density varied nonsignificantly during the same time period. These results indicate that after garlic mustard invades a forest it becomes a permanent part of the community, annually increasing in presence but fluctuating in cover and density. Garlic mustard maintains a low profile under low disturbance conditions, but increases rapidly with periodic disturbance. This study monitored garlic mustard invasion in high quality relatively undisturbed forests, and may underestimate the rate of spread in low quality highly disturbed forests.     

Comparative studies of the effects of carcinogenic and antitumor agents on the DNA replication of cultured mammalian cells

Cultured mouse L₅₁₇8Y cells were exposed to several carcinogenic and antitumor agents. After exposure to one of the agents, the cells were label with [³H]-thymidine for 20 min, and the DNA was subjected to alkaline sucrose gradient centrifugation immediately or after a chase period. This led us to classify the agents into 3 groups: (1) UV, 4-nitroquinoline-1-oxide (4NQO), N-methyl-N′-nitrosoguanidine (MNNG), nitrogen mustard and Mitomycin C. These were characterized by 20-min DNA labeling patterns showing the formation of small DNA and by the slowing down of their subsequent elongation. Replicated DNA strands would have gaps where “damage” was present on the parental strands. Subsequently, gap-filling replication would occur with or without repairing damage. (2) γ-rays. The 20-min DNA labeling profile displayed a larger size of DNA pieces and the subsequent elongation of this DNA was slightly affected. This probably due to a preferential depression of initiation DNA replication. (3) Methyl methanesulfonate (MMS) and low temperature (28°). The 20-min DNA labeling patterns were qualitatively similar to, but quantitatively different from those of non-irradiated control. The rate of DNA elongation was slightly retarded.     

Mechanisms of inhibition of DNA replication by ultraviolet light in normal human and xeroderma pigmentosum fibroblasts

The inhibition of DNA replication in ultraviolet-irradiated human fibroblasts was characterized by quantitative analysis of radiation-induced alterations in the steady-state distribution of sizes of pulse-labeled, nascent DNA. Low, noncytotoxic fluences (<1 J/m², producing less than one pyrimidine dimer per replicon) rapidly produced an inhibition of DNA synthesis in half-replicon-size replication intermediates without noticeably affecting synthesis in multi-repliconsize intermediates. With time, the inhibition produced by low fluences spread progressively to include multi-replicon-size intermediates. The results indicate that ultraviolet radiation inhibits the initiation of DNA synthesis in replicons. Higher (>1 J/m², producing more than one dimer per replicon) cytotoxic fluences inhibited DNA synthesis in operating replicons presumably because the elongation of nascent strands was blocked where pyrimidine dimers were present in template strands. Xeroderma pigmentosum fibroblasts with deficiencies in DNA excision repair exhibited an inhibition of replicon initiation after low radiation fluences. indicating the effect was not solely dependent upon operation of the nucleotidyl excision repair pathway. Owing to their inability to remove pyrimidine dimers ahead of DNA growing points, the repair-deficient cells also were more sensitive than normal cells to the ultraviolet-induced inhibition of chain elongation. Xeroderma pigmentosum cells belonging to the variant class were even more sensitive to inhibition of chain elongation than the repair-deficient strains despite their ability to remove pyrimidine dimers. This analysis suggests that normal and repair-deficient human fibroblasts either are able to rapidly bypass certain dimers or these dimers are not recognized by the chain elongation machinery.     

Cytotoxicity of alkylating agents towards sensitive and resistant strains of Escherichia coli in relation to extent and mode of alkylation of cellular macromolecules and repair of alkylation lesions in deoxyribonucleic acids

1. A quantitative study was made of the relationship between survival of colony-forming ability in Escherichia coli strains B/r and B(s-1) and the extents of alkylation of cellular DNA, RNA and protein after treatment with mono- or di-functional sulphur mustards, methyl methanesulphonate or iodoacetamide. 2. The mustards and methyl methanesulphonate react with nucleic acids in the cells, in the same way as found previously from chemical studies in vitro, and with proteins. Iodoacetamide reacts only with protein, principally with the thiol groups of cysteine residues. 3. The extents of alkylation of cellular constituents required to prevent cell division vary widely according to the strain of bacteria and the nature of the alkylating agent. 4. The extents of alkylation of the sensitive and resistant strains at a given dose of alkylating agent do not differ significantly. 5. Removal of alkyl groups from DNA of cells of the resistant strains B/r and 15T(-) after alkylation with difunctional sulphur mustard was demonstrated; the product di(guanin-7-ylethyl) sulphide, characteristic of di- as opposed to mono-functional alkylation, was selectively removed; the time-scale of this effect suggests an enzymic rather than a chemical mechanism. 6. The sensitive strain B(s-1) removed alkyl groups from DNA in this way only at very low extents of alkylation. When sensitized to mustard action by treatment with iodoacetamide, acriflavine or caffeine, the extent of alkylation of cellular DNA corresponding to a mean lethal dose was decreased to approximately 3 molecules of di(guanin-7-ylethyl) sulphide in the genome of this strain. 7. Relatively large numbers of monofunctional alkylations per genome can be withstood by this sensitive strain. Iodoacetamide had the weakest cytotoxic action of the agents investigated; methyl methanesulphonate was significantly weaker in effect than the monofunctional sulphur mustard, which was in turn weaker than the difunctional sulphur mustard. 8. Effects of the sulphur mustards on nucleic acid synthesis in sensitive and resistant strains were studied. DNA synthesis was inhibited in both strains at low doses in a dose-dependent manner, but RNA and protein synthesis were not affected in this way. 9. DNA synthesis in E. coli B(s-1) was permanently inhibited by low doses of mustards. In the resistant strains 15T(-) and B/r a characteristic recovery in DNA synthesis was observed after a dose-dependent time-lag. This effect could be shown at low doses in the region of the mean lethal dose. 10. Cellular DNA was isotopically prelabelled and the effect of mustards on stability of DNA was investigated. With resistant strains a dose-dependent release of DNA nucleotide material into acid-soluble form was found; this was much more extensive with the difunctional mustard (about 400 nucleotides released per DNA alkylation) than with the monofunctional mustard (about 10 nucleotides per alkylation). With the sensitive strain no dose-dependent release was found, though the DNA was less stable independent of cellular alkylation. 11. The results are discussed in terms of the concepts that alkylation of cellular DNA induces lesions which interfere with DNA replication, but which can be enzymically ;repaired'. The possible nature of these lesions is discussed in terms of the known reactions of the alkylating agents with DNA.     

Effects of mitomycin C on the rate of DNA synthesis in normal and Fanconi anaemia cells

The effect of low doses mitomycin C (MMC) on DNA synthesis of fibroblast cell lines derived from normal individuals or patients with Fanconi anaemia (FA) was studied. Using low doses of MMC (12 ng/ml), little or no effect was observed on DNA synthesis of normal cells, whereas DNA synthesis of FA cells was greatly inhibited 24 and 48 h after treatment. This effect was due to a decrease in the number of DNA-synthesizing cells, while the amount of radioactivity incorporated per cell (as measured with grain counting in autoradiograms) remained the same. These findings indicate that the inhibition of semiconservative DNA synthesis induced by MMC in FA cells is not due to an inhibitory effect of unrepaired lesions on the rate of DNA synthesis but rather to a block in cell cycle progression.