Defect in UV-induced unscheduled DNA synthesis in cultured epidermal keratinocytes from xeroderma pigmentosum

DNA repair synthesis in 8 explant-outgrowth cultures of epidermal cells isolated from variant and complementation groups A and E of xeroderma pigmentosum (XP) was examined by measuring unscheduled DNA synthesis (UDS) on autoradiographs. The extents of UDS in XP epidermal cells were compared with those in normal epidermal cells obtained from 26 subjects. In both normal and XP epidermal cells, UDS was induced dose-dependently by radiation at doses of 5-20 J/m2. XP epidermal cells showed various extents of defect in DNA repair depending on the type of XP. In XP-A, the extent of UDS in epidermal cells was very low, being seen in only 3-10% of the normal epidermal cells. But epidermal cells isolated from XP-E and XP-variants exhibited relatively high levels of residual DNA repair; i.e., 69-84% of the control in XP-E and 67-85% in XP-variant. The extents of UDS in XP epidermal cells were almost the same as those in fibroblastic cells isolated from the same specimens.     

Induction of unscheduled DNA synthesis in cultured human oral keratinocytes by sodium fluoride

The effect of treatment of cultured human oral keratinocytes with sodium fluoride (NaF) has been investigated with respect to induction of unscheduled DNA synthesis (UDS). Oral keratinocytes were isolated from excised buccal mucosa of normal individuals by trypsinization at 4 degrees C overnight, followed by separation of the epithelium of mucosa from lamina propria mucosae with forceps. Isolated cells were cultured in vitro and all experiments were performed with secondary cultures. For detection of UDS, the keratinocytes were cultivated with medium containing 1% fetal calf serum (FCS) for 2 days and then treated with 100-300 micrograms/ml NaF for 4 h in medium containing 1% FCS and 10 mM hydroxyurea (1% FCS-HU medium). Following treatment with NaF, UDS was measured by direct scintillation counting of [3H]thymidine incorporated into DNA of the cells in 1% FCS-HU medium. Significant levels of UDS were induced in a dose-related fashion by NaF treatment. The results suggest that NaF causes DNA damage in cultured human oral keratinocytes.     

UV-induced unscheduled DNA synthesis in fibroblasts of aging inbred rats

Because of the suggested relationship between the lifespan of an organism and the amount of unscheduled DNA synthesis (UDS) occurring in its cells after treatment with genotoxic agents, we initiated a lifespan study of this step of the nucleotide excision repair pathway in female Wistar (WAG/Rij) rats. Skin fibroblasts were isolated at 2 time points, separated by a 9-month interval, from rats of various ages. The isolated cells were cultured for 1 passage, irradiated with ultraviolet light (UV) and analyzed by autoradiography for their capacity to perform UDS. The results of the two cross-sectional series of determinations were identical: small variations among individual animals and a slight, but statistically significant age-related decrease in the initial rate but not in the end level of UV-induced UDS. The small variation among individual inbred rats as compared with the large variation reported for UDS in human populations suggests that the latter is largely due to genetic differences. The lack of a more pronounced age-related decrease along with the small individual variation suggests that the activity of the DNA nucleotide excision repair pathway is not an important single determinant of individual longevity in inbred rats of the same strain and sex.     

The induction of DNA-strand breaks and unscheduled DNA synthesis in F-344 rat hepatocytes following in vivo administration of caprolactam or benzoin

Benzoin (ZOIN) and caprolactam (CAP) were administered by gavage to Fischer 344 rats at a dose of 750 mg/kg and the hepatocytes isolated 12, 24 or 48 h after treatment. The isolated hepatocytes were subsequently examined for the induction of DNA-strand breaks (SB) and unscheduled DNA synthesis (UDS). Neither ZOIN nor CAP induced SB or UDS in hepatocytes, however ZOIN did induce an increase in the fraction of cells in S-phase 24 h after treatment. These results correlate well with the observed lack of carcinogenicity of these compounds.     

Induction of unscheduled DNA synthesis in primary rat hepatocytes by benzidine-congener-derived azo dyes in the in vitro and in vivo/in vitro assays

The genotoxicity of the benzidine-congener-derived azo dyes. Direct Blue 1 ( DB1 ), Direct Blue 14 ( DB14 ), Direct Brown 95 ( DB95 ), and Direct Red 46 ( DR46 ) was studied in the in vitro and in vivo/in vitro unscheduled DNA synthesis (UDS) assays in primary rat hepatocytes to determine if in vivo metabolism of these compounds was required for induction of UDS. Hepatocytes were isolated, cultured, and treated with the azo dyes and [3H]thymidine (in vitro assay); alternatively, in the in vivo/in vitro assay, rats were intubated with the azo dyes, the hepatocytes isolated at 17 h after dosing and incubated in a medium containing [3H]thymidine. UDS was quantified by an autoradiographic method. None of the azo dyes induced UDS in the in vitro assay. However, DR46 did induce marginal, but significant UDS in 1 experiment (1.2 net grains at 500 micrograms/ml media). No significant UDS was observed when DR46 was tested in a subsequent in vitro assay. In the in vivo/in vitro assay, DB95 (100 mg/kg), DB14 (125 mg/kg), and DR46 (100 mg/kg) induced significant UDS (12, 2.1, and 3.5 net grains, respectively). None of the azo dyes tested was mutagenic in the Salmonella/microsome assay in the presence and absence of rat liver enzymes. Therefore, in vivo reduction of azo dyes, presumably by the gut microflora, is a requirement for the genotoxicity of these azo dyes in the primary rat hepatocyte UDS assay.     

Activity of germ-cell mutagens and nonmutagens in the rat spermatocyte UDS assay

The ability of 13 chemicals of known germ-cell mutagenicity to induce unscheduled DNA synthesis (UDS) in rat spermatocytes was examined. At selected times following i.p. injection of test compounds, spermatocytes were isolated from Fischer 344 rats by enzymatic digestion of the seminiferous tubules and cultured for 24 h in the presence of [3H]thymidine. 7 compounds, methyl methanesulfonate, triethylenemelamine, cyclophosphamide, methylnitrosourea, ethylnitrosourea, procarbazine, and dibromochloropropane produced positive UDS responses in spermatocytes. These chemicals are also positive for specific locus mutations, heritable translocations, or dominant lethal mutations when administered to male rodents. Mitomycin C, which produces DNA interstrand crosslinks and induces heritable mutations and translocations in male germ cells, failed to stimulate UDS in rat spermatocytes. Germ-cell nonmutagens N-methyl-N'-nitro-N-nitrosoguanidine, dimethylnitrosamine, 4-nitroquinoline 1-oxide, and ethylene dibromide were negative in the rat spermatocyte UDS assay. Correlation of these results with those of other assays for heritable mutations in germ cells indicates that the in vivo/in vitro spermatocyte DNA repair assay is useful in predicting the mutagenic potential of chemicals in male germ cells.     

Correction of the ultraviolet light induced DNA-repair defect in xeroderma pigmentosum cells by electroporation of a normal human endonuclease

Cells from patients with xeroderma pigmentosum, complementation group A (XPA), are known to be defective in repair of pyrimidine dimers and other forms of damage produced by 254-nm ultraviolet (UVC) radiation. We have isolated a DNA endonuclease, pI 7.6, from the chromatin of normal human lymphoblastoid cells which recognizes damage produced by UVC light, and have introduced this endonuclease into UVC-irradiated XPA cells in culture to determine whether it can restore their markedly deficient DNA repair-related unscheduled DNA synthesis (UDS). Introduction of the normal endonuclease, which recognizes predominantly pyrimidine dimers, but not the corresponding XPA endonuclease into UVC-irradiated XPA cells restored their levels of UDS to approximately 80% of normal values. Electroporation of both the normal and the XPA endonuclease into normal human cells increases UDS in normal cells to higher than normal values. These results indicate that the normal endonuclease can restore UDS in UVC-irradiated XPA cells. They also indicate that XPA cells have an endonuclease capable of increasing the efficiency of repair of UVC damage in normal cells.     

Nitropyrene-induced DNA repair in Clara cells and alveolar type-II cells isolated from rabbit lung

DNA excision repair, as measured by unscheduled DNA synthesis (UDS), was examined in different cell types of rabbit lung exposed to nitropolycyclic aromatic hydrocarbons (NO-PAH) in vitro. Dose-related increases in UDS were observed. 1,6-Dinitropyrene (1,6-DNP) and 1,8-dinitropyrene (1,8-DNP) induced UDS more effectively in alveolar type-II cells compared with Clara cells. On the other hand, 1-nitropyrene (1-NP) caused a weak UDS response in Clara cells but no DNA repair in alveolar type-II cells.     

Induction of unscheduled DNA synthesis in primary cultures of rat, mouse, hamster, monkey, and human hepatocytes

Variation in hepatic metabolism between species may be an important factor in the differences observed in chemical carcinogenesis. We examined 6 chemicals representative of 4 chemical classes in the in vitro hepatocyte DNA repair assay using cells isolated from the Fischer-344 rat, B6C3F1 mouse, Syrian golden hamster, cynomolgus monkey and from human liver. Hepatocytes were isolated by in situ or biopsy liver perfusion and incubated with [3H]-thymidine and the test chemical. Unscheduled DNA synthesis (UDS) was measured as net grains/nucleus (NG) by quantitative autoradiography. Qualitative and quantitative differences in UDS responses were observed for every chemical. Liver cultures isolated from the rat, mouse, hamster, human, and monkey and treated with aflatoxin B1 or dimethylnitrosamine all yielded dose-related increases in NG. Human, rat, and hamster hepatocyte cultures yielded positive responses following exposure to the aromatic amines 2-acetylaminofluorene, 4-aminobiphenyl, and benzidine, whereas cultures isolated from the monkey and mouse yielded less than 0 NG. Treatment with benzo[a]pyrene (BAP) produced strong positive responses in monkey and human hepatocyte cultures, weak positive responses in hamster cultures, and equivocal or negative responses in rat and mouse hepatocyte cultures. Hepatocyte function was assessed by measurement of DNA content, glutathione content, BAP hydroxylase activity, p-nitroanisole-O-demethylase activity, p-nitrophenol conjugation, and urea synthesis rates. The functional capabilities of isolated hamster, monkey, and human hepatocyte cultures do not appear to correlate with UDS responses observed for any compound; however, they indicate that the cultures were metabolically competent at the time of chemical exposure. These studies suggest that rat hepatocytes are a suitable model for human hepatocytes, whereas mouse and male monkey hepatocytes may be insensitive to aromatic amines.     

Potentiation of dimethylnitrosamine genotoxicity in rat hepatocytes isolated following ethanol treatment in vivo

Unscheduled DNA synthesis (UDS), following exposure to dimethylnitrosamine (DMN), was potentiated in cultured hepatocytes isolated following treatment of rats for 14 or 28 days with 20% ethanol/5% sucrose solution. Ethanol treatment was associated with increased UDS, a concomitant increase in hepatic microsomal protein concentration and DMN N-demethylase activity. Increased aniline hydroxylase activity of hepatic microsomes from ethanol-treated rats preceded the measured increase in microsomal protein content or DMN metabolism. The increase in metabolism of DMN in vitro and potentiation of DMN-induced UDS associated with ethanol treatment may contribute to a synergistic effect of ethanol on DMN hepatotoxicity and carcinogenicity. In contrast, ethanol pretreatment did not increase the cytotoxicity of DMN as characterized by enzyme release.     

The influence of alpha-tocopherol and pyritinol on oxidative DNA damage and lipid peroxidation in human lymphocytes

Unscheduled DNA synthesis (UDS) and lipid peroxidation (LPO) were measured in human peripheral lymphocytes from healthy volunteers. These processes were induced by the catalytic system Fe2+-sodium ascorbate. The degree of induced LPO was measured spectrophotometrically by the thiobarbituric acid assay. UDS was detected by scintillometric measurement of the incorporation of 3H-thymidine into DNA. The protective action by fat-soluble vitamin E (D,L-alpha-tocopherol) and the artificial antioxidant pyritinol on UDS and LPO was also investigated. The system Fe2+ (2 mumole/l)-sodium ascorbate (30 mumole/l) increased the LPO level in healthy volunteers approximately 2.5 times and the incorporation of 3H-thymidine by 60-70%. alpha-Tocopherol (0.2 mmole/l) very efficiently suppressed LPO processes (p less than 0.01) and the oxidative damage of DNA measured as UDS was also significantly diminished (p less than 0.05). Pyritinol had no effect on LPO and UDS under our experimental conditions.     

Increase of sister chromatid exchanges in excision repair deficient xeroderma pigmentosum

Summary The distribution of spontaneous sister chromatid exchanges (SCEs) was studied in PHA-stimulated lymphocytes from 15 patients affected by xeroderma pigmentosum (XP). The study of unscheduled DNA synthesis (UDS) in twelve of these patients showed that seven were deficient and five proficient. The number of SCEs in XP patient cells was higher than in those of 19 controls, and the distributions of SCEs per cell were significantly different. However, the results varied when XP patients were considered in relation to their UDS: the group of XP patients with proficient UDS did not differ, whereas the group of XP patients with deficient UDS was very significantly different from controls. The group not tested for UDS was similar to the deficient UDS group. The possible relationship between the increase of SCEs and the type of DNA repair defect is discussed.     

Unscheduled DNA synthesis induced in mouse spermatids after combined treatment with methyl methanesulfonate and X-rays.

Unscheduled DNA synthesis (UDS), which is considered to be DNA repair, has been studied in early- to mid-spermatid stages of the mouse after combined treatments with X-rays and methyl methanesulfonate (MMS). UDS in spermatids was detected by giving testicular injections of [methyl-3H]thymidine ([3H]dThd) and making use of the fact that no scheduled DNA synthesis occurs in the germ cells after the last S period in primary spermatocytes. X-rays and MMS are each able to induce UDS in mouse spermatids. However, there was a statistically significant reduction in the amount of UDS observed when X-ray exposures of from 200 to 600 R were given 4 h before an i.p. injection of 75 mg/kg of MMS and concurrent testicular injections of [3H]dThd. This reduction in UDS is more than can be explained by the completion of repair of X-ray-induced DNA lesions. We suggest that the reduction in UDS is the result of an X-ray-produced impairment of a least a part of the repair mechanism involved in correcting MMS-induced DNA lesions. When the time interval between a 600-R X-ray exposure and MMS treatment was between 3 and 20 h (latest time interval s;udied) there was a statistically significant reduction of UDS in the spermatids. No significant decrease in UDS response occurred when the time interval between radiation exposure and MMS treatment was less than approximately 3 h.     

Unscheduled DNA synthesis in cultured ataxia telangiectasia fibroblast-like cells

The capacity of cultured fibroblast-like cells from 5 ataxia telangiectasia (AT) patients to repair γ-ray-induced damage formed in DNA under aerobic conditions was measured by unscheduled DNA synthesis (UDS). The AT cultures exhibited generally reduced UDS compared to the normal cultures for γ-ray doses of 4–12 kR. Reduced UDS in the AT cultures was observed for repair-incubation periods at which UDS was not saturated (0.5 and 1 h), and for periods characterized by maximal amounts of UDS in both the normal and AT cultures (2 and 4 h). The results suggest a class of lesions repairable in the normal cells by UDS within 1 h many persist in the AT cells for 4 h or longer.     

Quantification of unscheduled DNA synthesis in mononuclear leukocytes of the horse

This study compares the relationship between N-acetoxy-2-acetylaminofluorene (NA-AAF) and u.v. induced unscheduled DNA synthesis (UDS) and their respective relationships to age and blood pressure in horse mononuclear leukocytes with earlier, similar investigations on human leukocytes. U.v. induced UDS was found to proceed more rapidly than NA-AAF induced UDS. A pronounced lag period associated with the rapid demand for 3H-dThd into DNA after u.v. damage was observed. NA-AAF induced UDS correlated significantly with NA-AAF binding, age and the blood pressure of male horses. UDS values, induced by either method, were about half the level calculated for human leukocytes.     

Species differences in cytotoxic and genotoxic effects of phenacetin and paracetamol in primary monolayer cultures of hepatocytes

The cytotoxic and genotoxic effects of phenacetin and paracetamol were examined in monolayer cultures of hepatocytes isolated from the mouse, hamster, rat and guinea pig. No marked increase in unscheduled DNA synthesis (UDS) after exposing hepatocytes from any of the species to phenacetin was observed. At cytotoxic concentrations of paracetamol, an increased UDS in mouse hepatocytes in vitro was observed. Pretreatment of the mice by inducers of drug-metabolizing enzymes, such as 3-methylcholanthrene and Aroclor 1254, lowered the concentration threshold for the toxic responses. With rat hepatocytes only a minor increase in UDS was noted, while with hepatocytes from hamsters and guinea pigs in fact a decrease was seen. The narrow range observed between the cytotoxic and genotoxic effects of paracetamol makes it difficult to predict whether the initial DNA damage could lead to a mutation or whether the cells will die before the mutation is expressed. With respect to the cytotoxic effects, hamster hepatocytes were found to be most susceptible to paracetamol, followed by mouse, while rat and guinea pig were less affected. These data were in accordance with in vivo findings (Davis et al., 1974), indicating the potential value of hepatocyte culture when screening for possible liver toxic substances.     

An autoradiographic study of unscheduled DNA synthesis in the germ cells of male mice treated with X-rays and methyl methanesulfonate

Unscheduled DNA synthesis (UDS) in the germ cells of male mice after in vivo treatment with X-rays or methyl methanesulfonate (MMS) was assayed by use of a quantitative autoradiographic procedure. MMS induced UDS in meiotic through type III elongating spermatid stages, whereas X-rays induced UDS in meiotic through round spermatid stages. No UDS was detected in the most mature spermatid stages present in the testis with either MMS or X-rays. Taking into account differences in DNA content of the various germ-cell stages studied, we concluded that X-rays induced a maximum UDS response in spermatocytes at diakinesis--metaphase I. The level of UDS induced by MMS was about the same in all the stages capable of repair. Chromosome damage and UDS were measured simultaneously in the same spermatocytes at diakinesis 90 min after X-irradiation or MMS treatment. The level of UDS in most of the X-irradiated cells paralleled the extent of chromosome damage induced. A statistical analysis of these results revealed a positive correlation. As expected, MMS induced no chromosome aberrations above control levels. Therefore no correlation was determined between UDS and chromosome damage in this case. The distribution of UDS over the chromosomes treated at diakinesis with MMS or X-rays was studied. It was found that UDS occurred in clusters in the irradiated cells, whereas it was uniformly distributed in the MMS-treated cells.     

Measurement of genotoxic activity in multiple tissues following inhalation exposure to dimethylnitrosamine

Chemically-induced DNA repair was measured as unscheduled DNA synthesis (UDS) in selected tissues isolated from rats following in vivo exposure to inhaled dimethylnitrosamine (DMN). UDS was evaluated in epithelial cells from rat nasal turbinates and trachea, in hepatocytes and in pachytene spermatocytes from the same treated animal. At nominal concentrations of 500 and 1000 ppm of DMN in air, chemically-induced DNA repair was observed in the epithelial cells of the upper respiratory system. DMN also entered the circulation, as evidenced by a strong DNA-repair response in hepatocytes. No DNA repair was observed in pachytene spermatocytes indicating either that DMN or its active metabolites did not reach the testes in sufficient concentration to induce DNA repair or that the testes lacked the capability to metabolically activate the compound. These results illustrate the potential of this approach to assess the organ-specific genotoxicity of environmental chemicals.     

X-ray dose-effect relationship on unscheduled DNA synthesis and spontaneous unscheduled DNA synthesis in mouse brain cells studied in vivo

Summary X-irradiation of the head of adult mice leads to DNA repair synthesis (unscheduled DNA synthesis, UDS) in non-proliferating cells of the brain as shown autoradiographically after injection of³H-thymidine and subsequent irradiation. The extent of UDS induced by one and the same X-ray dose varies between different cell types and also between different brain areas. Within the range of X-ray doses studied (2 to 100 Gy) a linear dose effect relationship was observed. No evidence of a saturation effect was found. The slopes of the regression lines for the dose effect relationship differ considerably for the different cell types. Two interesting correlations were found, if the present results were compared with other data in the literature: (i) There seems to be a correlation between the extent of UDS and radiosensitivity of the different cell types, the cells with low DNA repair synthetic rates being more radiosensitive. (ii) The extent of UDS of the different cell types correlates well with the extent of protein synthesis of the corresponding cell types. Apart from radiation induced UDS, spontaneous UDS was found to occur in sham-irradiated animals. The extent of spontaneous UDS also differs considerably between different cell types as well as between different brain areas. The increase of spontaneous UDS with increasing duration of immobilization of the animals during sham irradiation suggests a relationship between spontaneous UDS and stress.     

Unscheduled DNA synthesis in human hair follicles after in vitro exposure to 11 chemicals: comparison with unscheduled DNA synthesis in rat hepatocytes.

A new method is described to investigate unscheduled DNA synthesis (UDS) in human tissue after exposure in vitro: the human hair follicle. A histological technique was applied to assess cytotoxicity and UDS in the same hair follicle cells. UDS induction was examined for 11 chemicals and the results were compared with literature findings for UDS in rat hepatocytes. Most chemicals inducing UDS in rat hepatocytes raised DNA repair at comparable concentrations in the hair follicle. However, 1 of 9 chemicals that gave a positive response in the rat hepatocyte UDS test, 2-acetylaminofluorene, failed to induce DNA repair in the hair follicle. Metabolizing potential of hair follicle cells was shown in experiments with indirectly acting compounds, i.e., benzo[a]pyrene, 7,12-dimethylbenz[a]anthracene and dimethylnitrosamine. The results support the conclusion that the test in its present state is valuable as a screening assay for the detection of unscheduled DNA synthesis. Moreover, the use of human tissues may result in a better extrapolation to man.