Ultraviolet mutagenesis of normal and xeroderma pigmentosum variant human fibroblasts

The mutabilities of normal and xeroderma pigmentosum variant (XP4BE) human fibroblasts by ultraviolet light (UV) were compared under conditions of maximum expression of the 6-thioguanine resistance (TGr) phenotype. Selection was with 20 micrograms TG/ml on populations reseeded at various times after irradiation. Approx. 6--12 days (4--8 population doublings), depending on the UV dose, were necessary for complete expression. The induced mutation frequencies were linear functions of the UV dose but the slope of the line for normal cells extrapolated to zero induced mutants at 3 J/m2. The postreplication repair-defective XP4BE cells showed a higher frequency of TGr colonies than normal fibroblasts when compared at equal UV doses or at equitoxic treatments. The induced frequency of TGr colonies was not a linear function of the logarithm of survival for either cell type. Instead, the initial slope decreased to a constant slope for survivals less than about 50%. The UV doses and induced mutation frequencies corresponding to 37% survival of cloning abilities were 6.7 J/m2 and 6.2 X 10(-5), respectively, for normal cells and 3.75 J/m2 and 17.3 X 10(-5) for the XP4BE cells. The lack of an observable increase in the mutant frequency for normal fibroblasts exposed to slightly lethal UV doses suggests that normal postreplication repair of UV-induced lesions is error-free (or nearly so) until a threshold dose is exceeded.     

Phenotypic lag and mutation to 6-thioguanine resistance in diploid human lymphoblasts.

Mutants of a diploid human lymphoblast line resistant to 6-thioguanine (6TG) appear 6--16 generations after treatment with any of a diverse group of mutagents: methylnitrosourea (MNU), methylnitrosoguanidine (MNNG), ICR-191, 5-bromodeoxyuridine (BUdR). A hypothesis is advanced that expression of the 6-thioguanine-resistant state may require the removal of essentially all pre-existing hypoxanthine--guanine phosphoribosyl transferase (HGPRT) molecules via division, dilution, and protein turnover. Design of protocols for quantitative mutation assays requires attention to this phenomenon.     

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.     

Mutation of human lymphoblasts by methylnitrosourea

The lag in phenotype expression of methylnitrosourea(MNU)-induced mutation to 6-thioguanine (6TG) resistance has been studied in a diploid human lymphoblastoid cell line. We find that a considerable period (8–12 days) elapses before new mutants appear in treated cultures; after 2 weeks, however, a stable maximum fraction is attained, as would be expected for a genetic mutation. We present preliminary data linking this phenotypic lag to the slow degradation rate of hypoxanthine-guanine phosphoribosyl transferase (HGPRT) and to an apparent requirement for very low (<0.2% normal) cellular HGPRT content in order for cells to be resistant to 10 μg 6TG/ml. A series of reconstruction experiments are presented, the results of which support the conclusion that selective pressures in the assay procedure do not bias the quantitative estimates of induced mutant fraction.     

Mutagenesis in cultured human diploid cells. III. Induction of 8-azaguanine-resistant mutations by furylfuramide.

Trans-2-(2-furyl)-3-(5-nitro-2-furyl) acrylamide (furylfuramide: FF or AF2) was tested for ability to induce 8-azaguanine (8AG) resistant mutations in cultured human diploid cells. FF had a relatively severe cytotoxic effect on the cells. From the concentration-survival curve, the D0 value for 2-h treatment with FF was estimated to be 11 mug/ml. When cells were treated with FF at various concentrations for 2 h, cultured in normal medium for 48 h, and then selected in medium containing 8AG at 30 mug/ml, the induced mutation frequency increased gradually with increase in concentration of FF. When cells were treated with FF at 10 mug/ml for 2 h, cultured in normal medium for various periods of mutation expression time, and selected with 8AG at 30 mug/ml, the highest induced mutation frequency was obtained with 48 h of mutation expression time. Microscopic examination of the numbers of cells in colonies indicated that the total number of cells increased by half during this mutation expression time of 48 h.     

The isolation and preliminary characterisation of 6-thioguanine-resistant mutants of human diploid fibroblasts

Mutant clones of human diploid fibroblasts deficient in the enzyme, hypoxanthine-guanine phosphoribosyl transferase (HGPRT) were selected by their ability to grow in medium containing the cytotoxic purine analogue, 6-thioguaninine (6TG). The optimal conditions for mutant selectiom were 6TG concentrations between 1 and 5 μg ml^?1 and cell plating densities ～ 10³ cells cm^?2.Nine spontaneous and four radiation-induced 6TG-resistant mutants had <2% of the parental strain HGPRT activity and were unable to grow in medium containing azaserine. These mutants were phenotypically stable during > 25 population doublings in non-selective medium and five mutants that were examined showed no gross change from the normal human karyotype.Evidence is presented to show that 6TG is a better selective agent than 8-azaguanine (8AG) for HGPRT-deficient mutants of human diploid fibroblasts.     

A mutational assay system for L5178Y mouse lymphoma cells, using hypoxanthine-guanine-phosphoribosyl-transferase (HGPRT) -deficiency as marker. The occurrence of a long expression time for mutations induced by X-rays and EMS.

The development of a system for the detection of somatic cell mutation to hypoxanthine-guanine-phosphoribosyl-transferase (HGPRT) (EC 2.4.2.8) deficiency in L5178Y mouse lymphoma cells is described. The selection of mutant cells was not influenced by the concentration of the selective agent 6-thioguanine (6-TG). In addition, all the mutants selected, spontaneous as well as induced ones, showed a complete loss of HGPRT activity. In reconstruction experiments, in which mutant cells were mixed with wild-type cells, the recovery of mutant cells was only markedly influenced when wild-type cells were seeded in a cell density ten times higher than the one, 5-10(4) cells/ml, used in subsequent induction experiments. X-irradiation and treatment with ethyl methanesulfonate (EMS) increased in the mutation rate above the spontaneous background. A clear-cut dose-dependent mutagenic effect after exposure to X-rays was measured. The rate of induced mutations at the HGPRT locus in lymphoma cells was 1-3-10(-7) per R, as determined after exposures of 200, 300, 400, 500 and 600 R. The time the cells needed to express their mutations was much longer than 48 h. Further study of this phenomenon showed that the optimal expression time for TGr-resistant mutants in L5178Y cells was 6 to 7 days. No indication for a dose-dependent effect on the optimal expression of the mutants was found.     

Thymidine Utilization by tut Mutants and Facile Cloning of Mutant Alleles by Plasmid Conversion in S. CEREVISIAE

Plasmid pJM81 contains a Herpes simplex virus thymidine kinase (TK) gene that is expressed in yeast. Cells containing the plasmid utilize thymidine (TdR) and the analogue 5-bromodeoxyuridine (BUdR) for specific incorporation into DNA. TdR auxotrophs, harboring plasmid pJM81 and a mutation in the yeast gene TMP1 require high concentrations of TdR (300 micrograms/ml) to support normal growth rates and the wild-type mitochondrial genome (rho+) cannot be maintained. We have identified a yeast gene, TUT1, in which recessive mutations allow efficient utilization of lower concentrations of TdR. Strains containing the mutations tmp1 and tut1, as well as plasmid pJM81, form colonies at 2 micrograms/ml TdR, grow at nearly normal rates and maintain the rho+ genome at 50 micrograms/ml TdR. These strains can be used to radiolabel DNA specifically and to synchronize DNA replication by TdR starvation. In addition, the substitution of BUdR for TdR allows the selective killing of DNA-synthesizing cells by 310-nm irradiation and allows the separation of replicated and unreplicated forms of DNA by CsCl equilibrium density banding. We also describe a unique, generally applicable system for cloning mutant alleles that exploits the fact that Tk+ yeast cells are sensitive to 5-fluorodeoxyuridine (FUdR) and that gene conversions can occur between a yeast chromosome and a TK-containing plasmid.     

Mutagen-induced diploid human lymphoblast variants containing altered hypoxanthine guanine phosphoribosyl transferase

The human lymphoblast line MGL8 was treated with HAT and subsequently "mutagenized" with EMS (200 microgram/ml) to give 15% survival, and 6-thioguanine-resistant cells were selected by cloning in soft agarose containing the drug (1 microgram/ml). Eighteen sublines of independently derived resistant clones were isolated and studied in detail. One subline had a low residual HGPRT activity of about 1% of the parental cells. The HGPRT of this subline had a higher Km for PRPP, was more sensitive to heat, and was degraded faster by trypsin than the enzyme in extracts of MGL8 cells. This resistant subline and three others contained CRM levels of 1--38%, compared to the wild-type, so they probably represent true structural mutants of the HGPRT gene. All the variants maintained the karyotype of the parental line (46, XY, 6p-).     

Presence of two active X chromosomes in hybrids between normal human and SV40-transformed fibroblasts from patients with the Lesch-Nyhan syndrome

Skin fibroblasts (LNSV) derived from a hypoxanthine-guanine phosphoribosyltransferase (HGPRT) deficient patient with the Lesch-Nyhan syndrome, who has glucose-6-phosphate dehydrogenase (G6PD) type A, were transformed with SV40 and hybridized with WI38 human diploid fibroblasts derived from a female embryo which have normal HGPRT and G6PD type B activities. The hybrid clones selected in hypoxanthine, aminopterin and thymidine (HAT) medium, were essentially tetraploid and contained three X and one Y chromosomes. These hybrids contained HGPRT, types A and B and the AB heteropolymeric form of G6PD enzymes which were indicative that in these cells X linked genes of both parental cells were fully active. Hybrids back-selected in medium containing 8-azaguanine (8-AG) contained only two X chromosomes. They had no HGPRT activity and they contained only G6PD type A enzyme. It is concluded that the hybrid cells which grew in the presence of 8-AG retained the X chromosome of the LNSV parental cell and apparently the inactive X of the WI 38 cell.     

Inhibition of fibroblast growth by polyanions; effects of dextran sulfate and lignin derivatives.

When macrophages prepared from rat bone marrow were cultured for more than one week, contaminating fibroblasts grew and formed large colonies which were observable with the naked eye after Giemsa staining. The addition of dextran sulfate or water-soluble lignin derivatives (acetyl or sulfonyl) to the culture medium almost completely inhibited the growth of fibroblasts at 10 micrograms/ml. These polyanions also inhibited the growth of chick embryo fibroblasts in a dose-dependent manner: at 5 micrograms/ml the inhibitory effect was 20-30% of the control and at 100 micrograms/ml it was 50-70%. In addition, these polyanions inhibited the mitosis of hepatocytes, although their inhibitory effects on the growth of hepatocytes were smaller than those observed on the growth of fibroblasts. On the other hand, these polyanions did not affect the growth of human urinary bladder carcinoma cells (HUB-4 and HUB-15). In conclusion, dextran sulfate and lignin derivatives may be useful in eliminating fibroblasts from certain cells.     

Mutagenesis in cultured mammalian cells. II. Induction of gene mutations in Chinese hamster cells

Mutations controlling the resistance to 6-mercaptopurine (6-M) and the ability to multiply in a medium with a low concentration of glucose (“glucose-independent” mutants) were induced in cultured Chinese hamster cells by N-nitrosomethylurea (NMU), 5-bromodeoxyuridine (BUdR), UV and X-rays. The chemical agents were found to be very active in induction of mutations to 6-M resistance (NMU and BUdR) and mutations of “glucose independence” (NMU). These agents increase the yield of mutations as compared to the spontaneous mutation rate by about two orders of magnitude. The induced rate of 6-M-resistant mutations by X-rays was 2.0 ? 10⁻⁷ per viable cell per roentgen. BUdR approximately equally increases the cell's sensitivity to both inactivating and mutagenic action of X-rays. The maximum induction of mutations to 6-M resistance by UV was observed at 100 erg/mm². This dose leads to 1 16-fold increase of the mutation frequency as compared to the spontaneous rate. Further increase of the UV dose up to 200 erg/mm² resulted in a lower yield of mutations per dose unit. The highest yield of mutations to 6-M resistance induced by NMU, BUdR and X-rays was observed if cells were plated in selective medium several generations after the mutagenic treatment. The maximum yield of mutations to 6-M resistance induced by UV and of glucose-independence induced by NMU was recorded if cells were transferred to selective media immediately after treatment. The kinetics of expression of mutations and the decline of their number observed after prolonged incubation of treated cells in nonselective conditions are discussed.     

Origin of thymidine kinase deficient (TK-) haploid frog cells via an intermediate thymidine transport deficient (TT-) phenotype

Wild-type cultured cells of the frog cell line ICR 2A give rise to 5-bromodeoxyridine (BUdR)-resistant colonies only when the selecting concentration of the drug is 5 × 10^?5 M or lower. The progeny of these colonies multiply in 10^?4 M BUdR; resistance is correlated with the absence of a thymidine (TdR)-specific transport reaction with a K^m in the range of 2–7 × 10^?4 M. All of the TdR transport-deficient (TT-) isolates examined (25) had TdR kinase activity (4% to 100% of wild-type). Variants deficient in TdR kinase activity (5% of wild-type) were obtained by exposing TT-cultures to 10^?3 M BUdR. The TK - variants multply continuously in 10^?3 M BUdR and retain the phenotype after prolonged culture in the absence of the drug. The frequency with which they occur is increased 20 to 50 fold by prior treatment of the culture with ICR 191, an acridine mustard mutagen. In haploid cells, it would be expected that TK- variants would arise in equal numbers from wild-type and TT- cultures if loss TdR kinase occurred independently of loss of the transport reaction. However, wild-type cells give no colonies resistant to 10^?3 M BUdR under conditions the give 1 to 50 colonies per million TT- cells. The TT- phenotype seems to be a required intermediate state in the origin of the TK- phenotype. Therefore, the TK- clones described above are unlikely to be products of mutation at a single genetic locus.     

Evidence for linkage of 3-phosphoglycerate kinase,hypoxanthine-guanine-phosphoribosyl transferase,and glucose 6-phosphate dehydrogenase loci in Chinese hamster cells studied by using a relationship between gene multiplicity and enzyme activity

The PGK activity was assayed in diploid, hyperdiploid, tetraploid, and hybrid cells all originating from the same Chinese hamster cell line (DON line). A relationship between gene multiplicity and enzyme activity was observed. Selective pressure on the HGPRT locus by growth of hybrid cells in the presence of 8-azaguanine resulted in decreased levels of PGK activity. Growth of these hybrids in the presence of 5-BUdR did not influence the enzyme activity. It was concluded that the genes coding for HGPRT, PGK, and G6PD are linked in the Chinese hamster. The TK locus seems to be linked neither to the HGPRT, PGK, and G6PD loci nor to the 6PGD locus.     

Mutagenesis by simian virus 40. I. detection of mutations in Chinese hamster cell lines using different resistance markers.

The mutagenic action of SV40 in permanent lines of Chinese hamster cells (CHO-K1 and V79) was investigated with the aid of different resistance markers. The markers studied had resistance to 8-azaguanine (25 and 30 mug/ml), aminopterin (3.3--5.5X10(-3) mug/ml), colchicine (6.5 and 7.0X10(-2) mug/ml) and 5-bromodeoxyuridine (50--120 mug/ml), respectively. After virus infection the mutation frequencies were increased by one (azaguanine, aminopterin) and two (colchicine) orders of magnitude as compared with spontaneous mutation frequencies. In contrast, it was not possible to enhance the frequency of mutation to BUdR resistance. On the other hand, the ability to proliferate in HAT medium was induced in three of five BUdR-resistant cell clones by infection with SV40. The resistance induced by SV40 was stable when isolated clones were cultured under non-selective conditions. Mechanisms are proposed that may be responsible for the mutagenic action of SV40.     

Factors affecting the growth of Chinese hamster cells in halt selection media

Factors affecting the efficiency of selection of “reverants” of salvage pathway mutants in media containing amethopterin have been examined. Our V79 Chines hamster cell line was found to require a significantly higher level of thymidine for optimal growth in such media than has been reported for other cell lines. Hypoxanthine (but not glycine) was also required for reversal of amethopterin toxicity, but levels did not differ significantly from those reported elsewhere. Growth in HAT was also dependent on plating density and serum batch. Our modification (VHAT) was compared with published HAT recipies in back selection reconstruction experiments. A sharp fall in EOR (efficiency of recovery) of wild type cells from mixtures with mutants at plating densities greater than 3500 cells/cm² (10⁵ cells/6 cm dish) was observed for VHAT. EOR with other HAT recipes was lower still, and was affected also by the particular mutant used in the mixture.EMS induced “revertants” were isolated from three 8AZ^r mutants by plating in VHAT. All. revertants were however amethopterin resistant, they were also 8AZ resistant and the mobility of residual HGPRT (as measured by polyacrylamide gel electrophoresis) was similar to that of their 8AZ^r parents i.e. dissimilar from that in wild type. The modal chromosome number of V79 wild type cells was 21. No significant deviation from this mode was detected in any of the mutant lines examined. The data indicate that the recovery of colonies in HAT from 8AZ^r mutants does not necessarily indicate that a back mutation in the structural gene for HGPRT has occurred. Thus, the frequency of HAT⁺ colonies cannot be taken as a direct indication of reversion frequencies.     

The dose-response relationship for ultraviolet-light-induced mutations at the hypoxanthine-guanine phosphoribosyltransferase locus in Chinese hamster ovary cells.

Exposure of Chinese hamster ovary (CHO) cells clone K1BH4 to ultraviolet (UV) light at doses up to 86 ergs/mm2 did not significantly reduce cell survival, but UV doses of 86-648 ergs/mm2 produced an exponential cell killing. Observed mutation frequency ro 6-thioguannine resistance induced by UV increases approximately in proportion to increasing doses up to 260 ergs/mm2 in a range of 5-648 ergs/mm2 examined. The pooled data of mutation frequency f(X) as a function of dose X from 0-260 ergs/mm2 is adequately described by f(X)=10(-6) (13.6 + 2.04 X). That the UV-induced mutations to 6-thioguanine resistance affects the hypoxanthine-guanine phosphoribosyl transferase (HGPRT) locus is supported by the observation that all randomly isolated drug-resistant colonies contained highly reduced or undetectable HGPRT activity.     

Concentration-dependent mutation of diploid human lymphoblasts by methylnitronitrosoguanidine: the importance of phenotypic lag.

The mutation of diploid human lymphoblasts by methylnitronitrosoguanidine (MNNG) was measured over the range of 0--45 ng of MNNG/ml of of medium. We found a 12-day lag in the phenotypic expression of 6-thioguanine resistance; the occurrence of this lag was independent of MNNG concentration. We hypothesize that the unexpectedly long lag period reflects a requirement for the loss of previously existing molecules of the enzyme hypoxanthine-guanine phosphoribosyltransferase (HGPRT) after mutation at the HGPRT locus.     

Amphibian cells in culture. II. Isolation of drug-resistant variants and an asparagine-independent variant.

With L-15 as the base medium, drug-resistant variants were isolated from two amphibian tissue culture strains: the Xenopus laevis A8 diploid cell line and the ICR 2A cell line of Rana pipiens. Four different classes of variants were obtained: (1) A8 cells resistant to chloramphenicol, an inhibitor of mitochondrial protein synthesis; (2) A8 cells resistant to ouabain, an inhibitor of the Na+/K+-activated ATPase of the plasma membrane;(3) ICR 2A cells resistant to low (20 microgram/ml) and high (300 microgram/ml) levels of bromodeoxyuridine (BUdR), a thymidine analog which interferes with the pyrimidine salvage pathway; and (4) ICR 2A cells resistant to 2,6-diaminopurine (DAP), an adenine analog which interferes with the purine salvage pathway. Unlike the other variants, isolation of BUdR resistant cells is a 2-step process. Resistance to low levels of BUdR is phenotypically expressed by a reduction in thymidine transport activities while resistance to high levels of this compound is evidenced by greatly reduced levels of thymidine kinase activity. DAP-resistant cells, which are characterized by reduced levels of adenine phosphoribosyl transferase (APRT) activity, do not die in AAT (adenine, aminopterin, thymidine) selection medium. This suggests that these cells utilize adenine efficiently. With MEM as the base medium, an asparagine independent clone was isolated from the ICR 2A cell line. When compared with the wild type, this variant exhibited a slightly reduced growth rate in the presence or absence of asparagine.     

Study of the sensitivity of the L-forms of group A Streptococcus to antibiotics in artificial nutrient media and in human cell cultures

Sensitivity of L-forms of group A streptococci to 5 antibiotics such as erythromycin, lincomycin, tetracycline, gentamicin and chloramphenicol was studied in an artificial nutrient medium and cell cultures i.e. human fibroblast diploid cells and transplantable human heart cells (Girardi). In vitro investigation of the antibiotic effect on the streptococcal L-forms revealed their sensitivity to erythromycin (MIC, 0.4 micrograms/ml), lincomycin (MIC, 0.08 microgram/ml) and tetracycline (MIC, 2 micrograms/ml). The streptococcal L-forms were slightly sensitive to gentamicin (MIC, 6 micrograms/ml) and chloramphenicol (MIC, 30 micrograms/ml). Complete inhibition of the growth of the L-forms in the Girardi cells on the 1st day of the experiment after the antibiotics administration in single doses was induced by lincomycin, 5 micrograms/ml, erythromycin, 10 micrograms/ml, and tetracycline, 100 micrograms/ml. In the diploid cells, the respective figures were 50, 100 and 200 micrograms/ml. Chloramphenicol and gentamicin had an inhibitory effect on the growth of the L-forms but produced no sanative effect.