Susan A. Harcourt

A comparison of the 8-azaguanine and ouabain-resistance systems for the selection of induced mutant Chinese hamster cells

The forward mutation selection system based on resistance to 8-azaguanine has been widely used with cells cultured from a diversity of species and with a variety of mutagens. Ouabain resistance is an alternative selective system. Both systems show a substantial influence of expression time on the number of resistant variants observed after addition of the selective agent such that the frequency reaches a maximum which is dose dependent, and then declines rapidly. Metabolic cooperation has been propsed as the mechanism responsible for this decline with the 8-azaguanine system, but it is less likely to account for the loss of ouabain-resistant variants where it is necessary to invoke generalised effects on the viability of variants due to overcrowding on the plates. A comparison of the two selective systems showed that, with the exception of gamma-irradiation, which was apparently non-mutagenic in the ouabain system, there was broad agreement between the two systems for each mutagen tested. Ethyl methanesulphonate was the most efficient mutagen by a substantial factor. Ouabain resistance permitted greater discrimination particularly between weak mutagens because of the low frequency of spontaneous variants (4 x 10(-7) and also produced data with less intrinsic variability. The absence of gamma ray induced mutation in the ouabain system shows that it may fail to detect certain types of mutagens. Thus the two systems should be used to complement each other. Mutation by the fungicide captan was evaluated using both systems and the positive results indicate that it may pose a hazard to man.

UV-C sensitivity of unstimulated and stimulated human lymphocytes from normal and xeroderma pigmentosum donors in the comet assay : a potential diagnostic technique

We have studied incision-break formation in unstimulated and stimulated populations of human T-lymphocytes using the comet (single-cell microgel electrophoresis) assay. The frequency of strand breaks 1 h after UV-irradiation appears to be far greater in unstimulated than in stimulated lymphocytes from normal donors and the excess of strand breaks was observed for a far longer time after irradiation. This result corroborates the greater sensitivity of UV-C irradiation observed in a colony-forming assay but suggests that the defect may relate to a defect in strand rejoining rather than a defect in incision. Few strand breaks were seen in either unstimulated or stimulated lymphocytes of four xeroderma pigmentosum donors, suggesting that the method may offer a rapid diagnostic assay for XP.

Comparative Human Cellular Radiosensitivity: I. The Effect of SV40 Transformation and Immortalisation on the Gamma-irradiation Survival of Skin Derived Fibroblasts from Normal Individuals and from Ataxia-telangiectasia Patients and Heterozygotes

We have compared cell killing following 60Co gamma irradiation in 22 primary human fibroblast strains, nine SV40-immortalized human fibroblast lines and seven SV40-transformed pre-crisis human fibroblast cultures. We have examined material from normal individuals, from ataxia-telangiectasia (A-T) patients and from A-T heterozygotes. We have confirmed the greater sensitivity of A-T derived cells to gamma radiation. The distinction between A-T and normal cells is maintained in cells immortalized by SV40 virus but the immortal cells are more gamma radiation resistant than the corresponding primary fibroblasts. Cells transformed by plasmids (pSV3gpt and pSV3neo) expressing SV40 T-antigen, both pre- and post-crisis, show this increased resistance, indicating that it is expression of SV40 T-antigen, rather than immortalization per se which is responsible for the change. We use D0, obtained from a straight line fit, and D, estimated from a multitarget curve, as parameters to compare radiosensitivity. We suggest that both have their advantages; D0 is perhaps more reproducible, but D is more realistic when comparing shouldered and non-shouldered data.

The influence of caffeine on cell survival in excision-proficient and excision-deficient xeroderma pigmentosum and normal human cell strains following ultraviolet-light irradiation.

A uniform response to UV of four normal cell strains was demonstrated. One excision-proficient xeroderma pigmentosum variant strain (XP7TA) had a wild-type UV response but a second (XP30RO) was more sensitive. An excision-deficient xeroderma pigmentosum strain XP4L0 was substantially more sensitive than wild-type cell strains. A continuous post-irradiation treatment with non-toxic levels of caffeine enhanced the lethal effect of UV light in both xeroderma pigmentosum variant cell strains but not in cells from normal individuals. There was no detectable effect on cells from a xeroderma pigmentosum individual from complementation group A. These results correlate well with observations on the influence of caffeine on post-replication repair in the three classes of cells.

Comparative Human Cellular Radiosensitivity: II. The Survival Following Gamma-irradiation of Unstimulated (G0) T-lymphocytes, T-lymphocyte Lines, Lymphoblastoid Cell Lines and Fibroblasts from Normal Donors, from Ataxia-telangiectasia Patients and from Ataxia-telangiectasia Heterozygotes

We have measured clonal survival following gamma-irradiation of unstimulated (G0) T-lymphocytes from 35 donors, of 11 T-lymphocyte cell lines, of six lymphoblastoid cell lines, and of nine primary fibroblast strains for which we have G0 T-lymphocyte material from the same donor. Amongst the G0 lymphocytes we have results from nine normal donors, from eight cord bloods, from seven ataxia-telangiectasia (A-T) patients and from nine A-T heterozygotes. Although there is some variation between samples, G0 T-lymphocytes from normal donors appear to be slightly more radioresistant than T-lymphocyte lines, with a more shouldered survival curve. From our limited sample, lymphoblastoid cell lines appear to be slightly more radiosensitive than T-lymphocytes. The overall radiosensitivity of primary fibroblasts appears to be broadly similar to that of G0 T-lymphocytes. In nine instances, five A-Ts and four A-T heterozygotes, both G0 T-lymphocytes and primary fibroblasts from the same donor were tested. In five cases there was closely similar radiosensitivity in the two cell types, but in four cases there was some discrepancy. Further work, especially with normal donors, will be required in order to establish how reliably radiosensitivity in other cell types can be predicted from that of G0 T-lymphocytes. In all cell types the hypersensitivity of A-T cells was confirmed. Furthermore, the marginally greater sensitivity of A-T heterozygotes, when compared as a group with normals, was confirmed with G0 T-lymphocytes. Our results also suggest a slightly increased radiosensitivity in G0 T-lymphocytes from some, but not all, cord blood samples.

EXPRESSION TIME AND SPONTANEOUS MUTABILITY IN THE ESTIMATION OF INDUCED MUTATION FREQUENCY FOLLOWING TREATMENT OF CHINESE HAMSTER CELLS BY ULTRAVIOLET LIGHT.

Abstract UV light has a dose-dependent effect on the optimum expression time for 8-azagauanine-resistant mutants, thus variable expression times are a prerequisite for any mutation experiment. When the induced mutation frequencies are taken as the difference between the optimum frequency for each dose and the optimum frequency for the control unirradiated population, the dose-dependent curve obtained is biphasic or cumulative, with more mutants being produced per unit of dose at high than at low doses. The spontaneous mutation frequencies observed in this system vary over a wide range and are correlated with induced frequencies in such a way that in experiments with high spontaneous frequencies high induced frequencies are also observed.

Correlation of UVC and UVB cytotoxicity with the induction of specific photoproducts in T-lymphocytes and fibroblasts from normal human donors.

Abstract— By using specific monoclonal antibodies in situ and a computer‐assisted image analysis system we have determined the relative induction of cyclobutane dimers, (6–4) photoproducts and Dewar isomers in human mononuclear cells and fibroblasts following irradiation with UVC, broad‐spectrum UVB and narrow‐spectrum UVB. The lamps produced these lesions in different proportions, with broad‐spectrum UVB inducing a greater combined yield of (6–4) photoproducts and Dewar isomers per cyclobutane dimer than UVC or narrow‐spectrum UVB. The relative induction ratios of (6–4) photoproducts compared to cyclobutane dimers were 0.15, 0.21 and 0.10 following irradiation with UVC, broad‐ or narrow‐spectrum UVB, respectively. Although Dewar isomers were induced by UVC, their relative rate of formation compared to cyclobutane dimers was significantly greater after irradiation with either broad‐spectrum or narrow‐spectrum UVB. These values were 0.001, 0.07 and 0.07, respectively. With each lamp source, we have determined the survival of normal human T‐lymphocytes and fibroblasts at fiuences, which induce equivalent yields of cyclobutane dimers, (6–4) photoproducts or (6–4) photoproducts plus Dewar isomers. Killing of fibroblasts appears to be associated with (6–4) photoproduct formation, whereas killing of T‐lymphocytes seems to be mediated by combined (6–4) plus Dewar yields. These results emphasize the need to study the biological effects of UVB because cellular responses may be different from those following UVC irradiation.

Relationship between pyrimidine dimers, 6-4 photoproducts, repair synthesis and cell survival: Studies using cells from patients with trichothiodystrophy

Trichothiodystrophy is a genetic disease which in the majority of cases studied is associated with a deficiency in the ability to repair UV damage in cellular DNA. Three categories of UV response have been identified. In type 1 the response is completely normal, whereas type 2 cells are deficient in excision-repair, with properties indistinguishable from those of XP complementation group D. Type 3 cells have normal survival following UV-irradiation and normal rates of removal of cyclobutane pyrimidine dimer sites. Nevertheless repair synthesis is reduced by 50% in these cell strains and this is associated with a marked reduction in the repair of 6-4 photoproducts from cellular DNA. The present results show that 50% or more of repair synthesis at early times after irradiation of normal primary human fibroblasts is attributable to repair of 6-4 products. They also suggest that repair of cyclobutane dimers is crucial for cell survival.

The induction of 8-azaguanine-resistant mutants in cultured Chinese hamster cells by ultraviolet light the effect of chenges in post-irradiation conditions

Abstract The influence of caffeine (100 μg/ml) and incubation in salts medium (“liquid holding”) was examined on the induction by UV light of mutants resistant to 8-azaguanine. Liquid-holding conditions enhanced survival and gave a significant but small reduction in mutation frequency. The influence of caffeine was seen to depend upon the length of time it was contact with the cells. In a procedure where caffeine was present only during the period allowed for the expression of mutants, the induced mutant freqency was enhanced. Where caffeine was present for the complete post-irradiation incubation period, the frequency was reduced. The first of these experimental procedures is the more rigorous in that it reduces the opportunity for any possible interaction between the effects of the two purine analogues, caffeince and 8-azaguanine. The results are interpreted in terms of an error-prone component of the repair processes.

Effect of deoxyribonucleosides on the hypersensitivity of human peripheral blood lymphocytes to UV-B and UV-C irradiation.

We have previously shown that non-cycling (unstimulated) human lymphocytes from normal donors show extreme hypersensitivity to UV-B irradiation, and are killed by an excisable lesion which is not a pyrimidine dimer or 6-4 photoproduct. In this paper we show that addition of the 4 deoxyribonucleosides to the medium, each at 10(-5) M, substantially increased the survival of non-cycling normal human T-lymphocytes following UV-B irradiation and substantially reduced the frequency of excision-related strand breaks in human mononuclear cells. Addition of ribonucleosides to the medium did not enhance excision-break rejoining. The survival of fibroblasts, of cycling T-lymphocytes and of unstimulated xeroderma pigmentosum T-lymphocytes was not enhanced by deoxyribonucleosides. This suggests that the hypersensitivity is due to reduced rejoining of excision breaks as a consequence of low intracellular deoxyribonucleotide pools and that it can be redressed by supplementation of the medium with deoxyribonucleosides or upregulation of ribonucleotide reductase following mitogen stimulation. We suggest that UV-B forms an additional DNA lesion which is not a pyrimidine dimer or 6-4 photoproduct, which is relatively common, and at which incision is particularly efficient. In fibroblasts, repair of this lesion is completed with high efficiency, whereas in normal unstimulated T-lymphocytes, rapid incision exacerbates the effects of the reduced rate of strand rejoining and leads to cell death.