Repair synthesis and induction of thymidine-resistant variants in mouse lymphoma cells of different radiosensitivity

An assay system has been characterised using excess thymidine (TdR) as a selective agent, and the dose-response curve for X-ray induced variants resistant to thymidine has been compared with that for X-ray induced variants resistant to 5-iodo-2-deoxyuridine (IUdR) in P388 lymphoma cells. Dose-response curves showed a linear and a dose squared component in this cell line and were similar in both selective systems. A comparison has been mae of the dose-response curves for X-ray induced thymidine resistant (TdR⁺) variants in four other lymphoma cell lines of differing radiosensitivity. When induced frequencies were compared either at the same dose or at the same survival level the most sensitive line L5178YS was found to be most mutable.Repair replication levels were measured in all cell lines but no correlation between observed levels of repair replication and mutability in the 5 cell lines was found. The data are discussed in relation to the possible involvement of repair processes in mutation induction by X-rays in mammalian cells.     

Evidence for chemically-induced structural gene mutations at the thymidine kinase locus in cultured L5178Y mouse lymphoma cells

L5178Y mouse lymphoma cells normally appear to possess two functional thymidine kinase alleles (TK^+/+). TK-deficient (TK^?/?) clonal lines can be derived from these cells by treatment with EMS or other mutagens. Mezger-Freed [12] has argued that such stable phenotypic variants do not arise as the result of gene mutations but instead represent epigenetic events such as normally occur during differentiation without any permanent gene alteration. If this be so, then rare TK^+/? revertants arising in TK^?/? cultures should possess TK enzyme identical with one of those present in the original TK^+/+ cells, since only depression of the TK gene is involved. Our studies show that this is not the case.Among the mutant TK enzymes analyzed in vitro (those from parental TK^+/? lines, each derived in turn from separate TK^?/? lines) differences were found in (1) solubility in saline; (2) solubility in3 M LiCl; (3) K_m′s; and (4) ATP-Mg²⁺ requirements. These findings were incompatible with a non-mutational model for the production of these stable variants and, in conjunction with reversion-rate data, they tended to favor either direct structural gene modifications or mutations affecting the expression of adult and fetal enzymes.     

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.     

Acute response of the mouse bladder to derivatives of 4-ethylsulphonylnaphthalene-1-sulphonamide and bladder carcinogens measured by the uptake of (125 I)5-iodo-2 -deoxyuridine

The structural features of 4-ethylsulphonylnaphthalene-1-sulphonamide (ENS) responsible for the induction of DNA synthesis in the mouse bladder have been investigated using a method in which DNA synthesis is measured by the uptake of a thymidine analogue, [¹²⁵I]5-iodo-2′-deoxyuridine (IUdR). The ability to stimulate DNA synthesis was unaffected by the nature of the alkyl group in 4-alkylsulphonylnaphthalene-1-sulphonamide. The sulphonamide group appeared to be essential to the activity of the molecule because naphthalene-1,4-disulphonamide was active whereas 1,4-diethylsulphonylnaphthalene was not. Maximum activity was found when the sulphonamide group was attached to an aromatic system (benzene or naphthalene) containing an alkylsulphonyl or a sulphonamide group. Bladder carcinogens other than ENS failed to stimulate the uptake of [¹²⁵I]IUdR sufficiently to produce statistically significant results. The reasons for the large variation in response between individual mice are discussed, as are the implications of the structure activity relationships to the mode of action of ENS.     

The induction of thymidine- and IUdR-resistant variants in P388 mouse lymphoma cells by x-rays, UV and mono- and bi-functional alkylating agents

Dose-response curves for “mutation” to resistance to 5-iodo-2-deoxyuridine (IUdR) and excess thymidine (TdR) in P388 mouse lymphoma cells have been established after exposure of these cells to six chemical mutagens, UV |and| ionising radiations. The dose-response curves for all mutagens in both selective system show considerable similarities when induced mutation frequencies are plotted against survival. Expression time for both types of variants, IUdR^r and TdR^r, are similar, i.e. maximum frequencies are reached by 48 h and there is no fall in variant frequency at late expression times up to 144 h. Over the range of survival levels studied there appears to be little or no dependence of expression time on dose of mutagen. Some loss of mutants after high doses (i.e. at low survival levels) was observed due to the fact that a significant proportion of both TdR^r and IUdR^r clones were more sensitive to the mutagens than the wild-type population. The similarities in induced dose-response curves for different mutagens suggest that the mutants have a common origin, probably an error in repair, but it seems unlikely that errors in “cut and patch” repair are responsible. A comparison of spontaneous frequencies of IUdR^r and TdR^r variants suggests that IUdR is mutagenic in P388 cells.     

Reversion of the 8-azaguanine resistant phenotype of variant Chinese hamster cells treated with alkylating agents and 5-brono-2'-deoxyuridine.

From cultures of V79 Chinese hamster cells, 10 independent clones of 8-azaguanine resistant cells were isolated and subcultured. Cells from all ten clones were resistant to 1 mg/ml levels of 8-azaguanine (8-AzG), contained less than 3% of the wild type levels of the enzyme, hypoxanthine guanine phosphoribosyl transferase (HGPRT), and were unable to grow in HAT medium. The ten clones were classified according to the conditions under which they reverted to the wild type phenotype. Clones in classes I and II reverted spontaneously with frequencies of 40-10(-5) and about 3-10(-5) respectively, and the reversion frequency was independent of the density of cells of all but one of the clones in the culture medium used. Class II clones evinced increased reversion frequencies with ethyl methanesulfonate (EMS) and N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), and to a lesser extent with 5-bromo-2'-deoxyuridine (budR), suggesting that these clones contained point mutations in a locus which controls HGPRT activity. The processes of reversion and toxicity appeared to be associated. Class III clones did not revert spontaneously or with BUdR and MNNG, but did revert with EMS. The reversion frequency of class I clones was not increased after treatment with EMS, MNNG or BUdR.     

Biological and biochemical characterisation of purine analogue resistant clones of V79 Chinese hamster cells

Purine analogue resistant clones have been selected from the closely related Chinese hamster lines V79A and V79S. Clones were of either spontaneous origin or induced by EMS or ultraviolet light. The majority of clones selected in 8-azaguanine showed stable cross resistance to 6-thioguanine. Clones derived from V79A and selected for 6-thioguanine resistance were cross resistant to 8-azaguanine: however a group of 6-thioguanine resistant mutants selected from V79S cells were 8-azaguanine sensitive. All clones except two were unable to grow in HAT medium. The two exceptions were 8-azaguanine resistant, showed partial sensitivity to 6-thioguanine, and also differed in other biochemical characteristics. HGPRT activity was measurable in extracts of all clones under standard conditions. In many clones, HGPRT activity increased as the hypoxanthine concentration was reduced. Whole cell uptake of [14C] hypoxanthine was low in all cases examined and was not modified by incubation in the presence of amethopterin. The heat sensitivity and electrophoretic mobility of HGPRT in extracts of some clones was compared to that in wild-type extracts. All clones tested except one, which was consistently HAT positive, showed enhanced heat sensitivity and reduced electrophoretic mobility. None of the mutants reverted spontaneously at detectable frequency but some could be induced to revert by EMS. The presence of measurable enzyme with altered properties in all clones suggests that these revertable drug resistant clones represent missense mutants.     

Toxicity and mutagenicity of radiation from fluorescent lamps and a sunlamp in L5178y mouse lymphoma cells

Unfiltered broad spectrum radiation emitted by black light, cool white, and black light blue fluorescent lamps and a sunlamp, is both toxic and mutagenic to L5178Y mouse lymphoma cells when the cells are irradiated in phosphate-buffered saline. The increase in mutant frequency seen after exposure of the cells is linear throughout the range of exposures tested. The linear increase in mutagenesis is observed even at exposure levels which do not cause significant toxicity. To facilitate comparison of the differing rates of mutagenesis derived from exposure-response curves obtained for each light source, we have defined a parameter, joule-equivalent mutagenesis (jem), equal to mutants per 10(5) survivors per joule per square meter. Jem values are calculated using the integrated irradiance of each lamp. Based on jem values, the relative mutagenicity of the various lamps tested (compared with a germicidal ultraviolet lamp) is 3 x 10(-3) for the sunlamp, 1 x 10(-4) for the black light and cool white lamps, and 3 x 10(-5) for the black light blue lamp. The toxic and mutagenic effects of the lamps are in reasonable agreement with their relative spectral output from 290 to 330 nm.     

In situ analysis of trifluorothymidine-resistant (TFTr) mutants of L5178Y/TK+/- mouse lymphoma cells

TFTr mutants of L5178Y/TK+/- mouse lymphoma cells are analyzed as they appear in situ following cloning and incubation for 9-11 days in soft agar cloning medium. These TFTr mutants can be divided by colony size into sigma, small colony, and lambda, large colony, mutants. The use of a size discriminator on an automatic colony counter allows the production of histograms to evaluate the size distribution of colonies on a plate. The evaluation of these size distribution curves provides insight into the properties of sigma and lambda mutants. From these analyses several conclusions may be drawn. The sigma phenotype is preferentially associated with the TFTr subpopulation of a treated culture. The sigma phenotype is not an artifact of delayed toxicity following treatment. The frequency of quantifiable sigma mutants is not affected by agar concentrations between 0.20% and 0.45% in the cloning medium. TFTr sigma mutants are produced spontaneously and can be induced by a variety of mutagens. The decline in overall detectable mutants frequency observed for some mutagens with increasing time after treatment is due to the decline in sigma mutant frequency. The quantitation of both sigma and lambda mutants is thus useful in obtaining maximum utility of the information provided by the L5178Y/TK+/- mouse lymphoma assay.     

Effect of DNA repair inhibitors on the induction and repair of bleomycin-induced chromosome damage.

The current status of the L5178Y/TK^+/-→TK^-/- mouse-lymphona mutagenicity assay is described. Dose-survival-mutagenic response data are shown for 43 chemicals. Mutagenicity and cytotoxicity in the presence or absence of non-induced and/or Aroclor-induced rat-liver S-9 are compared for most of these chemicals. 25 of these for which usable carcinogenicity data exist have been used to construct an approximately linear relationship between oncogenic potency in vivo and mutagenic potency in this system in vitro; linearity between these two endpoints extends over a greater than 100 000-fold range in potencies. Several carcinogens which are negative or difficult to detect in the standard Ames assay are mutagenic in this mammalian cell system. These include natulan, sodium saccharin (lot S-1022), p,p′-DDE (a metabolite of DDT), dimethylnitrosamine, diethylnitrosamine and diethylstilbestrol.