Showing papers in "Mutation Research in 1975"

Methods for detecting carcinogens and mutagens with the salmonella/mammalian-microsome mutagenicity test

Abstract: We describe in this paper the general methods for using the Salmonella/microsome test as a mutagenesis screening system. The methods described include the standard plate test, the use and storage of the bacterial tester strains, preparation and use of the liver homogenates (S/sub 9/), and the methods of inducing the rats for elevated microsomal enzyme activity. The application of this test system to screening large numbers of compounds, and the interpretation of test results is also discussed.

A yeast strain for simultaneous detection of induced mitotic crossing over, mitotic gene conversion and reverse mutation

Abstract: A diploid yeast strain is described which can be used to study induction of mitotic crossing over, mitotic gene conversion and reverse mutation. Mitotic crossing over can be detected visually as pink and red twin sectored colonies which are due to the formation of homozygous cells of the genotype ade240/ade240 (deep red) and ade-2-119/ade2-119 (pink) from the originally heteroallelic condition ade2-40/ade2-119 which forms white colonies. Mitotic gene conversion is monitored by the appearance of tryptophan non-requiring colonies on selective media. The alleles involved are tryp5-12 and trp5-27 derived from the widely used strain D4. Mutation induction can be followed by the appearance of isoleucine non-requiring colonies on selective media. D7 is homoallelic ilv1-92/ilv1-92 . The isoleucine requirement caused by ilv1-92 can be alleviated by true reverse mutation and allele non-specific suppressor mutation. The effects of ethyl methanesulfonate (EMS), nitrous acid, ultraviolet light and hycanthone methanesulfonate were studied with D7 stationary phase cells. Mitotic crossing over as monitored by red/pink twin sectored colonies was almost equally frequent among normal and convertant cells. This showed again that mitotic recombination is not due to the presence fo a few cells committed to meiosis in an otherwise mitotic cell population. The dose-response curves for induction of mitotic gene conversion and reversion of the isoleucine requirement were exponential. In contrast to this, the dose-response curve for induction of twin sectored red and pink colonies reached a plateau at doses giving about 30% cell killing. This could partly be due to lethal segregation in the progeny of treated cells. None of the agents tested would induce only one type of mitotic recombination, gene conversion or crossing over. There was, however, some mutagen specificity in the induction of isoleucine prototrophs.

Mutagenic activities of metal compounds in bacteria.

Abstract: Environmental contaminations by certain metal compounds are bringing about serious problems to human health, including genetic hazards. It has been reported that some compounds of iron, manganese and mercury induce point mutations in microorganisms. Also it has been observed that those of aluminum, antimony, arsenic, cadmium, lead and tellurium cause chromosome aberrations in plants, insects and cultured human cells. The mechanism of mutation induction by these metals remains, however, still obscure. For screening of chemical mutagens, Kada et al, recently developed a simple and efficient method named rec-assay by observing differential growth sensitivities to drugs in wild and recombination-deficient strains of Bacillus subtilis. When a chemical is more inhibitory for Rec/sup -/ than for Rec/sup +/ cells, it is reasonable to suspect mutagenicity based on its DNA-damaging capacity. In the present report, 56 metal compounds were tested by the rec-assay. Compounds showing positive results in the assay such as potassium dichromate (K/sub 2/Cr/sub 2/O/sub 7/), ammonium molybdate ((NH/sub 4/)/sub 6/Mo/sub 7/O/sub 24/) and sodium arsenite (NaAsO/sub 2/) were then examined as to their capacities to induce reversions in E. coli Trp/sup -/ strains possessing different DNA repair pathways. 11 references, 3 tables.

Genetics of alcohol dehydrogenase in Saccharomyces cerevisiae: I. Isolation and genetic analysis of adh mutants

Abstract: On the basis of allyalcohol resistance, Saccharomyces cerevisiae mutanta were isolated that were deficient in alcohol dehydrogenase (ADH). The mutants were divided into three classes by their different ADH isozyme pattern obtained after starch-gel electrophoresis: adc mutants that did not produce the constitutive ADH, adr mutants from which the glucose repressible enzyme (ADHII) was absent, and adm mutants deficient in ADH activity associated with the mitochondria. Genetic analysis showed that two genes control synthesis of the glucose repressible enzyme ADHII, one gene the constitutive ADHI and a fourth nuclear gene the mitochondrial ADH. None of these four genes showed any linkage. The various mutant types did not show drastic effects on yeast growth on media containing glucose or ethanol as sole carbon sources.

Sister chromatid exchanges--a sensitive assay of agents damaging human chromosomes.

Abstract: Sister chromatid exchange frequencies in human lymphocyte chromosomes are greatly increased by alkylating agents, but ionizing radiation has little if any such effect. Scoring these exchanges may provide a useful technique for exploring the mechanisms of chromosome breakage and repair.

Induction of DNA double-strand breaks by X-rays in a radiosensitive strain of the yeast Saccharomyces cerevisiae

Abstract: Sedimentation profiles for chromosomal DNA from unirradiated and X-irradiated yeast cells of wild type and rad 52 strains are presented. These profiles indicate that, whereas wild type strains rejoin DNA double-strand breaks, rad 52 strains apparently do not. These data suggest that the rad 52 mutant lacks a repair system for X-ray induced damage and are consistent with the proposal that an unrepaired chromosome break leads to reproductive cell death.

Five complementation groups in xeroderma pigmentosum.

Abstract: A collaborative study was undertaken to determine the relationship between the three DNA repair complementation groups in xeroderma pigmentosum found at Erasmus University, Rotterdam, and the four groups found at the National Institutes of Health, Bethesda. The results of this study reveal that there are five currently known complementation groups in xeroderma pigmentosum.

Pleiotropic effects of a DNA adenine methylation mutation (dam-3) in Escherichia coli K12.

Abstract: The dam-3 mutation results in a five-fold reduction in the number of 6-methyl-adenine (6-meA) residues in the DNA of E. coli K12 or phage lambda. The DNA of phage fd appears to be devoid of 6-meA when propagated on dam-3 bacteria. The phenotypic differences between dam-3 and dam+ bacteria include: (i) increased free phage in lysogenic dam-3 cultures, (2) increased sensitivity to methyl methanesulfonate (MMS), (3) inviability of dam-3 lex-I strains, (4) lower molecular weight of DNA in dam-3 bacteria in the absence of DNA ligase and (5) increased rate of DNA degradation in dam-3 recA strains.

Comparative analysis of deletion and base-change mutabilities of Escherichia coli B strains differing in DNA repair capacity (wild-type, uvrA-, polA-, recA-) by various mutagens.

Abstract: Dose-response curves were compared for deletions [ColBR (resistant to colicin B) mutations being more than 80% deletions] and base changes (reversion of argFam to prototrophy argplus) induced in the same set of E. coli strains (wild-type for DNA repair, uvrA-, polA- and recA-) by N-methyl-N'-nitro-N-nitrosoguanidine (NTG), ethyl methanesulfonate (EMS), hydroxylamine (HA), 4-nitroquinoline I-oxide (4NQO), mitomycin C (MTC, UV and X-rays. All these agents induced deletions as well as base changes in the wild-type strain. Thus chemical mutagenesis differed in E. coli and bacteriophages in vitro, for HA, NTG, EMS and perhaps UV produced only point mutations in phage Tr. The patterns of deletion and base-change mutability in E. coli were surprisingly similar. (I) The recombination less recA- strain was mutable by only three (NTG, EMS, HA) of the seven mutagens for either deletions or base changes. (2) The uvrA- strain, unable to excise pyrimidine dimers, was very highly mutable by 4NQO and UV but immutable by MTC for both deletions and base changes. (3) The polA- strain, defective in DNA polymerase I due to a non-suppressible mutation, was very highly mutable by HA and highly mutable by MTC and 4NQO for both deletions and base changes but was highly mutable only for deletions by UV and X-rays, remaining normally mutable by the other agents for both deletions and base changes despite its high sensitivity to their inactivating action. We conclude that errors in the recA-dependent repair of induced DNA damage (after 4NQO, MTC, UV and X-rays) or errors in replication enhanced by damage to the replication system or to the template strands (after NTG, EMS, and HA) give rise to deletions as well as to base changes. From a comparative analysis of 14 dose-response curves for deletions and base changes, we conclude that the order of mutagenic efficiency relative to killing is (EMS, NTG) greater than (UV, 4NQO) greater than HA greater than (X-rays, MTC), and that X-rays, 4NQO, HA and MTC induce more ColBR deletions than Argplus base changes, whereas UV and EMS induce ColBR deletions and Argplus base changes at nearly equal rates and the specificity of NTG is intermediate between these two types.

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

Abstract: 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 proposed 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 γ-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 × 10−7) and also produced data with less intrinsic variability. The absence of γ 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.

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

Abstract: • 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 XP4LO 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.

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.

Abstract: 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 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 TG r - 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.

Studies on chemically induced dominant lethality. I. The cytogenetic basis of MMS-induced dominant lethality in post-meiotic male germ cells.

Abstract: Young adult male mice were injected intravenously with doses of methyl methanesulfonate(MMS) ranging from 25 to 100 mg/kg body weight. These males were serially mated to superovulated females from day 1 post injection to day 23 post injection. The morning after mating (about 4-6 h post-copulation) the females were sacrificed and ova flushed from the ampulla. The ova were cultured, in the presence of colchicine, for 26 h and metaphase preparations made of the first cleavage division. Chromosome analysis was done and the types, and extent, of chromosome aberrations correlated to previously published dominant lethal data at the same MMS doses and time intervals. The types of aberrations seen were predominantly double fragments (presumably isochromatid deletions), chromatid interchanges, and some chromatid deletions, as well as shattering effect on the male complement at the highest dose and the time of peak sensitivity to dominant lethal induction. When the frequency of cells containing a cytologically visible aberration is compared to the total dominant lethal data an excellent correlation is obtained. Furthermore, the frequency of highly damaged cells, agrees very well with estimated frequencies of preimplantation loss. These data strongly suggest that chromosome aberrations seen at the first cleavage stage are the basis of MMS-induced dominant lethality.

Relationship between experimental results in mammals and man: I. Cytogenetic analysis of bone marrow injury induced by a single dose of cyclophosphamide

Abstract: The extrapolation of experimental results to amn was studied by cytogenetic bone marrow analysis and micronucleus test in mice, rats and Chinese hamsters. Futhermore, the frequency of chromosomal aberrations was compared with the frequencies of polychromatic erythrocytes containing micronuclei. Cyclophosphamide (CY) was given intraperitoneally at the doses of 5, 10, 20, 40 and 80 mg/kg b.w. to ICR mice and Wistar rats and at the doses of 10, 20, 40, 80, 120 and 160 mg/kg b.w. to Chinese hamsters. Five patients with various types of malignancies until then medically untreated, were i.v. administered 40 mg CY/kg b.w. Bone marrow cells were examined 24 h after the administration. CY induced in all rodents a clear-cut dose-effect relationship in the frequency of breaks, abnormal metaphases as well as in the frequency of micronuclei in polychromatic erythrocytes. When comparing the results in rodents and man at the dose of 40 mg CY/kg b.w., the sensitivity pattern of species was ice > rats > Chinese hamsters > man. From this aspect the possible differences in the metabolism of CY in analysed species are discussed. The presented results tend to a conclusion that micronucleus testing may be a very suitable method used for screening purposes, however, the method of classical cytogenetic analysis, especially the evaluation of breaks, still remains the most exact and reliable technique.

Vinyl chloride exposure and human chromosome aberrations.

Abstract: Examination of lymphocyte cultures from 11 vinyl chloride polymerization workers and 10 controls revealed a significantly higher incidence of aberrations in the exposed population. Most of the excess damage was of the “unstable” variety and involved the grossest kinds of changes such as fragments or rearrangements. When these complex changes were regarded as the product of two breaks, the incidence of all breaking events was also significantly increased in the workers. The results indicate the presence of chromosome damage in vinyl chloride exposed workers.

Mutagenic properties of CIS-Platinum(II)diammino-dichloride in Escherichia coli

Abstract: cis-Platinum(II)diamminodichloride (PDD), an anti-tumor agent, induced auxotrophic mutations in Escherichia coli, some of which were reverted to prototrophy by exposure to PDD, 2-aminopurine (2-AP), and N-methyl-N′-nitro-N-nitroguanidine (NTG), but not ICR derivatives. Similarly, various 2-AP-, NTG-, and ultraviolet light-induced auxotrophs were reverted to prototrophy by PDD. Some PDD-induced auxotrophs carried nonsense mutations and others could be phenotypically suppressed by growth with streptomycin. Although these findings suggest that PDD promotes base substitutions, this mutagen may also cause base subtractions because (like NTG)it induced, at reduced frequency, reversion to prototrophy of certain ICR-induced auxotrophs. Isomeric trans-platinum(II)diamminodichloride, which lacks anti-tumor activity, was an ineffective mutagen. Near-optimal conditions for PDD-induced mutagenesis entailed prolonged cultivation with low levels of mutagen where the frequency of forward mutation to auxotrophy was 10−3 and that of a selected trp isolate to prototrophy was 10−2.

Induction of translocations by cyclophosphamide in different germ cell stages of male mice: cytological characterization and transmission.

Abstract: Cytological and fertility tests were performed in F1 male mice derived from different germ-cell stages of male parents treated with cyclophosphamide (350 mg/kg body weight). The objectives of the present experiment were: (1) to determine the sensitivity of the male germ-cell stages to the induction of translocations by the compound, and (2) to characterize translocation configurations in F1 and F2 males, in order to obtain information about the pattern of chromosome breakage induced and its transmission to subsequent generations. Of 508 F1 males studied, 39 were partially sterile and 9 were fully sterile. The group of males conceived 8–21 days after treatment contained by far the highest proportion of partially sterile animals (30%). It was also the only group in which totally sterile animals (11%) were found. Of 25 semisterile males from this group, 24 gave evidence of translocations when spermatocytes were scored at diakinesis. The translocation frequencies in F1 derived from treated spermatozoa and spermatocytes were 14 and 1%, respectively. No translocations were detected cytologically 6 semisterile males derived from treated spermatogonial stages. These results indicate that spermatid stages are especially sensitive to the mutagenic action of cyclophosphamide. In 21 of the 31 semisterile translocation males (68%), the majority of the spermatocytes contained 18 bivalents plus a ring-of-four configuration, indicating that both breakpoints were relatively centrally located; and in several of these males, the frequency of cells with rings was close to 100%. In another 9 F1 males (29%) the predominant multivalent configuration was a chain-of-four, indicating one of the breakpoints to be relatively more terminally located; and in one male (3%), the majority of cells had two unequal bivalents, indicating both breakpoints to be fairly close to the ends of the chromosomes involved. Determination of centromere positions by the use of C-banding showed that chain-of-four configurations in any one male were predominantly of a given type. Associations of more than one translocation were observed in 11 of 31 translocation males, but in a very low frequency (about 1% of the spermatocytes). The results indicate that cyclophosphamide induces a relatively random pattern of chromosome break location. In this respect this mutagen more closely resembles X-rays than it does certain chemicals for which there isf evidence that breakpoint position is frequently subterminal. Our data indicate that the pattern of configurations observed in F1 was in general transmitted to F2.

Concentration-effect studies with MMS, TEB, 2,4,6-triCl-PDMT, and Den on the induction of dominant and recessive lethals, chromosome loss and translocations in drosophila sperm

Abstract: Comparative tests were made with four mutagens, treating male germ cells, particularly mature sperm, of Drosophila melanogaster . Dominant lethals, sex-linked recessive lethals, sex-chromosome loss and partials loss, and in one test translocations were used as genetic points. The four mutagens, methyl methanesulphonate (MMS), 2,3,5,6-tetraethyleneimino-1,4-benzoquinone (TEB), 1-(2,4,6-trichlorophenyl)-3,3-dimethyltriazene (2,4,6-triCl-PDMT), and diethyl nitrosamine (DEN) are known to differ in their chemical properties and mode of mutagenic action. An apparent relationship between dominant lethal induction and other genetic damage was found only with TEB. All four mutagens are efficient inducers of sex-linked recessive lethals. At low concentrations there were no direct concentration-frequency relationships. The two direct mutagens, MMS and TEB were effective in the chromosome loss tests. DEN does not include translocations or any of the other types of damage studied which can be attributed to chromosome breakage. It is concluded that sex-linked recessive lethal test is a simple and efficient way of preliminary screening chemical mutagens with Drosophila melanogaster .

The measurement of chemically-induced DNA repair synthesis in human cells by BND-cellulose chromatography.

Abstract: Repair synthesis in human cells in tissue culture can be readily separated from semi-conservative DNA synthesis with the aid of a benzoylated naphthoylated DEAE cellulose (BND-cellulose) column. Cells are incubated with a radioactive DNA precursor during treatment with a repair-inducing agent. An inhibitor of semi-conservative DNA synthesis (hydroxyurea) is added to slow the progression of the DNA growing point. The cells are lysed and after treatment with ribonuclease and pronase the lysates are sheared and passed through a BND-cellulose column. Native DNA is eluted with I M NaCl. Any increase in radioactivity in the native DNA is due to repair synthesis and the specific repair activity (nucleotides inserted per mug of DNA) can be determined from radioactivity and absorbancy measurements. Repair can also be measured in the region of the DNA growing point by fractionation of the material eluted from BND-cellulose with 50% formamide. Repair was not detected in N-acetoxy-2-acetylaminofluorene (AAAF)-treated lymphoblasts derived from an individual with xeroderma pigmentosum although methyl methanesulfonate (MMS)-induced repair was observed in these cells.

Mutagenicity of organophosphorus compounds in bacteria and drosophila

Abstract: 140 Organophosphorus compounds (OP's) have been tested for mutagenic activity in bacteria, principally by using two specially constructed sets of tester strains of the bacteria Salmonella typhimurium and Escherichia coli . It was found that 20% gave positive mutagenic responses and that this group of chemicals produce base substitutions rather than frame-shift mutations. In most cases the DNA repair genes exrA + and recA + were for mutagenic activity. Seven compounds were further tested in Drosophila melanogaster for the ability to induce recessive lethal mutations. In some of these cases the doses administered to the flies had to be very low due to the highly toxic nature of the compounds. To overcome this problem, the accumulation of recessive lethal mutations was measured in populations which were continually exposed to the compounds over a period of some 18 months. During this time the populations developed increased resistance to the compound and so the dose administered could gradually be increased. Six of the compounds were mutagenic. Of the compounds tested in both systems, those showing mutagenic activity in bacteria were also mutaganic in Drosophila, those mutagenic in bacteria were not mutagenic in Drosophila.

Post-replication repair of DNA in Chinese hamster cells treated with cis platinum (II) diamine dichloride. Enhancement of toxicity and chromosome damage by caffeine.

Abstract: The anti-tumor agent cis platinum (II) diammine dichloride (cis Pt(II)) caused chromosomal abnormalities in Chinese hamster V79-379A cells. The time of appearance of these abnormalities suggested that they arise as a consequence of DNA synthesis on a damaged template. The yield and severity of chromosomal abnormalities was greatly enhanced by a non-toxic concentration of caffeine, and this enhancement was associated with a potentiation of cis Pt(II) induced cell death. These results suggest that damage to DNA which arises from cis Pt(II) treatment can be repaired in this cell line by a caffeine-sensitive post-replication repair process.