Showing papers in "Mutation Research in 1985"

Measurement of micronuclei in lymphocytes.

Abstract: The micronucleus technique has been proposed as a method for measurement of chromosomal damage in mitogen-stimulated human lymphocytes. Micronuclei require one cell division to be expressed and, consequently, the conventional micronucleus technique is very imprecise since the cells which have undergone only one division, and the micronuclei in them, cannot be identified separately from the total population of lymphocytes. To overcome this problem, two methods were developed to identify cells which have undergone their first mitosis. Using an autoradiographic technique, lymphocytes were pulse-labelled with [3H]thymidine at 48 h of culture, allowed to proceed through mitosis, identified by autoradiography between 72 and 84 h and micronuclei were scored in them. It was not possible to select a concentration of radiolabel which did not itself produce micronuclei and consequently the method was of no value for measuring pre-existing chromosomal damage present in vivo. However, it was capable of quantitating micronuclei produced by irradiation of lymphocytes in vitro. In the second method, cytokinesis was blocked using cytochalasin B. Micronuclei were scored in cytokinesis-blocked cells. These were easily recognisable owing to their binucleate appearance and a large number could be accumulated by adding 3.0 micrograms/ml cytochalasin B at 44 h and scoring at 72 h. Cytochalasin B did not itself produce micronuclei. The cytokinesis-block method was simple to perform; the 'in vivo' micronucleus frequency in normal individuals was 4.4 +/- 2.6 micronuclei/500 cytokinesis-blocked cells; and for lymphocytes irradiated in vitro there was a linear relationship between dose of radiation and number of induced micronuclei. The cytokinesis-block method appears to be the procedure of choice for quantitating micronuclei in lymphocytes.

Naturally occurring carbonyl compounds are mutagens in Salmonella tester strain TA104.

Abstract: Strains of Salmonella typhimurium that carry a nonsense mutation at the site of reversion detect a variety of naturally occurring and synthetic carbonyl compounds as direct-acting mutagens. TA104 is reverted efficiently by formaldehyde, alpha, beta-unsaturated aldehydes (enals), and dicarbonyl compounds, such as diacetyl and glutaraldehyde. This strain is much more sensitive to carbonyl mutagenesis than is TA100, a strain previously reported to detect aldehydes as mutagens, or any other characterized strains of Salmonella. Long-chain enals are very toxic to TA104, but addition of a reduced glutathione chase following an incubation period decreases this toxicity, thus enabling the detection of 4-hydroxy-pentenal, a homolog of the lipid peroxidation product, 4-hydroxy-nonenal, as a mutagen. This is the first report of the mutagenicity of a hydroxy-enal, a class of enals produced by lipid peroxidation. Testing conducted with strains that carry the nonsense mutation in different repair backgrounds indicates that the presence of pKM101 and the deletion of the uvrB gene facilitate the detection of enals and dicarbonyls, but not malondialdehyde, as mutagens. Since carbonyl compounds are widely distributed in foods, are generated during cellular metabolism, and are present in body fluids, they may make a significant contribution to the risk of human cancer.

The SOS Chromotest, a colorimetric bacterial assay for genotoxins: procedures

Abstract: The SOS Chromotest is a quantitative bacterial colorimetric assay for genotoxins. Substantial validation is now available (Quillardet et al., 1985). We describe here in detail the tester strain as well as the effects of the variation of some parameters on the assay. We report a simple spot-test procedure as well as a new standard procedure which incorporate recent technical improvements aimed at simplifying the assay further.

Detection and chemical identification of natural bio-antimutagens. A case of the green tea factor.

Abstract: A bio-antimutagen, isolated from Japanese green tea (leaves of Camellia sinensis ), reduced high spontaneous mutations due to altered DNA-polymerase III in a mutator srain of Bacillus subtilis . Chemical studies showed that the factor was epigallo-catechin-gallate (EGCg).

Methylation-induced blocks to in vitro DNA replication.

Abstract: Single-stranded primed M13mp2 templates and double-stranded templates were treated with either dimethyl sulfate (DMS) or N-methyl-N'-nitro-N-nitrosoguanidine and used for DNA synthesis in vitro. Methylation inhibits the ability of the molecules to serve as templates. When either E. coli DNA polymerase I or AMV reverse transcriptase were used as polymerases, DNA synthesis terminated one nucleotide 3' to the site of adenine residues in the template. Heating of the templates resulted in the appearance of additional termination bands one nucleotide before the site of G's in the template. We assume that methylated A's but not methylated G's are blocks to in vitro DNA synthesis and that heating converts a portion of the sites of methylated G to AP sites which are blocks to synthesis.

The SOS Chromotest, a colorimetric bacterial assay for genotoxins: validation study with 83 compounds

Abstract: The SOS Chromotest is a simple bacterial colorimetric assay for genotoxicity. It is based on the measure of the induction of sfiA, a gene controlled by the general repressor of the SOS system in E. coli. Expression of sfiA is monitored by means of a gene fusion with lacZ, the structural gene for beta-galactosidase. We have examined 83 compounds of various chemical classes with the SOS Chromotest using a standard procedure. Comparison of the results with those obtained in the Mutatest (the Ames test) showed that most (90%) of the mutagenic compounds were also SOS inducers. For these compounds a quantitative correlation was observed between the mutagenic potency and the SOS-inducing potency (SOSIP). The case of the 10% remaining compounds giving conflicting results in the two tests is discussed. Sensitivity, specificity and accuracy for carcinogenicity prediction have been evaluated for the SOS Chromotest and the Mutatest using 73 chemicals for which carcinogenicity data were available. In spite of some differences, similar results were obtained in the two tests. The present data indicate that the SOS Chromotest has many practical advantages and may be used as a primary screening tool or as part of a battery of short-term tests for carcinogens.

Superoxide dismutase isoenzymes in tissues and plasma from New Zealand black mice, nude mice and normal BALB/c mice.

Abstract: In various types of autoimmune disease, an increased frequency of spontaneous chromosome breaks has been reported. Plasma from such patients induces chromosome breaks in normal cells. Exposure of plasma to superoxide radicals increases the breakage activity, and addition of superoxide dismutase protects against it. The New Zealand black mouse is an animal model of autoimmune disease which displays the breakage phenomenon. To test for the possibility that the breakage is related to deficient protection against superoxide radicals, the activities of superoxide dismutase isoenzymes were determined in tissues and blood from New Zealand black mice and compared with the activities of normal BALB/c mice. No differences between the strains were revealed in tissue EC-superoxide dismutase, CuZn superoxide dismutase and Mn superoxide dismutase activity. The erythrocyte superoxide dismutase activities were also equal. The plasma EC-superoxide dismutase activity was 35% lower in the New Zealand black mice than in the BALB/c mice. Between euthymic BALB/c mice and nude mice, previously reported to be deficient in tissue superoxide dismutase activity, no difference could be demonstrated.

The effect of donor age on spontaneous and induced micronuclei.

Abstract: The spontaneous micronucleus yield in lymphocyte cultures from healthy donors aged 0–82 years was estimated at 72 h and 96 h of culture. At both 72 and 96 h there was a positive correlation of micronucleus expression with increasing age ( p

Analysis of trifluorothymidine-resistant (TFTr) mutants of L5178Y/TK+/- mouse lymphoma cells.

Abstract: Three classes of TFTr variants of L5178Y/TK+/- -3.7.2C mouse lymphoma cells can be identified--large colony (lambda), small colony (sigma), and tiny colony (tau). The sigma and lambda mutants are detectable in the routine mutagenesis assay using soft agar cloning. The tau mutants are extremely slow growing and are quantitated only in suspension cloning in microwells. Variants of all three classes have been analyzed in the process of evaluating the usefulness of the thymidine kinase locus in L5178Y/TK+/- mouse lymphoma cells for detecting induced mutational damage. 150 of 152 variants from mutagen treated cultures and 163 of 168 spontaneous mutants were TFTr when rechallenged approximately 1 week after isolation (3 weeks after induction). All of the 41 mutants assayed for enzyme activity were TK-deficient. The sigma and tau phenotypes were found to correlate with slow cellular growth rates (doubling time greater than 12 h), rather than from effects of the TFT selection or mutagen toxicity. Cytogenetic analysis of sigma mutants approximately 3 weeks after induction shows an association between the sigma phenotype and readily observable (at the 230-300 band level) chromosomal abnormalities (primarily translocations involving that chromosome 11 carrying the functional TK gene) in 30 of 51 induced mutants studied. Using an early clonal analysis of mutants (approximately 2 weeks after induction) 28 of 30 sigma mutants showed chromosome 11 rearrangements. All lambda mutants studied (17 of 17 evaluated 3 weeks after induction and 8 of 8 evaluated 2 weeks after induction) showed normal karyotypes (at the 230-300 band resolution level), including the chromosome 11s. These observations support the hypothesis that sigma (and likely tau) mutants represent chromosomal mutations and lambda mutants represent less extensive mutations affecting the TK locus. The inclusion of sigma mutants in the total induced mutant frequency, as well as distinguishing them as a separate subpopulation of TK-deficient mutants, is, therefore, essential in obtaining maximum utility of the information provided by the L5178Y/TK+/- mouse lymphoma assay.

Acetone, methyl ethyl ketone, ethyl acetate, acetonitrile and other polar aprotic solvents are strong inducers of aneuploidy in Saccharomyces cerevisiae.

Abstract: A diploid yeast strain D61.M was used to study induction of mitotic chromosomal malsegregation, mitotic recombination and point mutation. Several ketones (including acetone and methyl ethyl ketone) and some organic acid esters (including the methyl, ethyl and 2-methoxyethyl esters of acetic acid) and acetonitrile strongly induced aneuploidy but not recombination or point mutation. Only diethyl ketone induced low levels of recombination and point mutation in addition to aneuploidy. Related compounds were weak inducers of aneuploidy: methyl n-propyl ketone, the methyl esters of propionic and butyric acid, acetic acid esters of n- and iso-propanol and ethyl propionate. No mutagenicity was found with n-butyl and isoamyl acetate, ethyl formate, acetyl acetone (2,5-dipentanone) and dioxane. Methyl isopropyl ketone induced only some recombination and point mutation but no aneuploidy. Efficient induction was only observed with a treatment protocol in which growing cells were exposed to the chemicals during a growth period of 4 h at 28 degrees C followed by incubation in ice for more than 90 min, usually overnight for 16-17 h. Aneuploid cells could be detected in such cultures during a subsequent incubation at growth temperature if the chemical was still present. Detailed analysis showed that there was a high incidence of multiple events of chromosomal malsegregation. It is proposed that the mutagenic agents act directly on tubulin during growth so that labile microtubules are formed which dissociate in the cold. When cells are brought back to temperatures above the level critical for reassembly of tubulin and allowed to grow, faulty microtubules are formed.

Somatic gene mutations in vivo as indicated by the 6-thioguanine-resistant T-lymphocytes in human blood

Abstract: The clonal and the autoradiographic assays for 6-thioguanine-resistant (TGr) T-lymphocytes (T-Lys) in human blood are reviewed. Studies of TGr colonies recovered from clonal assays show that the mutant T-Lys (i) are either helper (T4) or suppressor (T8) cells, (ii) poses stable TGr phenotype, (iii) are deficient in hypoxanthine guanine phosphoribosyltransferase (HPRT), and (iv) have structural alterations in the hprt gene. TGr T-Ly mutant frequencies (Mfs) determined by clonal assays are of the order of 10−6−10−5 for normal adults. Autoradiographically determined variant frequencies (Vfs) are also in this range for normal adults when lymphocytes are cryopreserved before study to remove ‘phenocopies’. Cancer exposed to potentially mutagenic treatments have elevated TGr T-Ly Vfs. Comparative clonal and autoradiographic assays of the same blood samples give generally similar results when allowances are made for potential sources of error in each assay. The TGr T-Ly system is presented for human specific-locus mutagenicity monitoring.

Sodium arsenite enhances the cytotoxicity, clastogenicity, and 6-thioguanine-resistant mutagenicity of ultraviolet light in Chinese hamster ovary cells

Abstract: Cytotoxicity, chromosome aberrations, and mutations to 6-thioguanine resistance were synergistically increased by incubating the ultraviolet light (UV)-irradiated Chinese hamster ovary (CHO) cells in medium containing sodium arsenite. However, the frequencies of sister-chromatid exchanges and mutations to ouabain resistance induced by UV were not synergistically increased by sodium arsenite. The synergistic effect of sodium arsenite on UV-induced chromosome aberrations varied with cell-harvesting time and decreased with increasing time intervals between UV and sodium arsenite treatments.

The genotoxicity of selenium.

Abstract: Selenium at nutritional levels has been shown to have numerous anticarcinogenic or preventative effects against carcinogen-induced breast, colon, liver and skin cancer in animals. Many of these anticarcinogenic effects have been summarized. In addition, numerous mutagenic and antimutagenic effects of selenium compounds have been reported. Some of the selenium compounds frequently tested for mutagenicity are listed in Table 1. Because of the numerous reported anticarcinogenic and preventative effects of selenium, many individuals are supplementing their diets with amounts of selenium that are greater than the recommended daily requirement. Selenium is also used widely in industrial products such as selenium rectifiers, photoelectric batteries, alloys and paints. Because selenium at higher levels is known to be toxic, there should be a greater understanding about its genotoxic as well as its beneficial effect. The object of this review is to summarize experimental evidence both for the antimutagenic and the mutagenic effect of selenium.

Mutagenicity of methyl 2-benzimidazolecarbamate, diethylstilbestrol and estradiol: structural chromosomal aberrations, sister-chromatid exchanges, C-mitoses, polyploidies and micronuclei

Abstract: Methyl 2-benzimidazolecarbamate (MBC), diethylstilbestrol (DES) and estradiol were tested with regard to their ability to induce C-mitoses, polyploidies, micronuclei, structural chromosomal aberrations and sister-chromatid exchanges (SCE) in human peripheral lymphocytes in vitro. The compounds did not induce structural chromosomal aberrations either in the presence or absence of metabolic activation. MBC and estradiol were negative in the SCE test. DES induced SCE rates which were not even twice the control level and which were independent of dose and of metabolic activation. All compounds induced C-mitoses, polyploidies and micronuclei. The micronuclei are interpreted as resulting from errors in the anaphase distribution of chromosomes by spindle disturbances rather than from structural chromosomal aberrations.

Current status of bioassays in genetic toxicology — The dominant lethal assay: A report of the U.S. environmental protection agency gene-tox program☆

Abstract: The term dominant lethal may be defined as death of the heterozygote arising through multiple chromosomal breaks. The assay is generally conducted by treating male animals, usually mice or rats, acutely (1 dose), subacutely (5 doses), or over the entire period of spermatogenesis. Animals treated acutely or subacutely are mated at weekly intervals to females for a sufficient number of weeks to cover the period of spermatogenesis. Those treated for the entire spermatogenic cycle are mated for 1 or 2 successive weeks at the termination of treatment. Females usually are killed at 14 days of pregnancy and examined for the number of total implantations in the uterus, the number of implantations classified as early deaths, and, in some cases, the number of corpora lutea. The category of early death is the most significant index of dominant lethality. A total of 249 papers were reviewed and 140 chemicals were evaluated. Of the 140 chemicals, 65 were positive by the criteria used by the Work Group in evaluating each publication. The category of "positive" includes those responses of a borderline nature. 99 chemicals were declared negative. There is considerable overlap of chemicals in both categories, which accounts for the incongruity in the total number of chemicals tested and the number considered positive and negative. A total of 44 animal carcinogens have been tested in the dominant lethal assay, 26 of which were positive and 18 negative for a correlation of 59%. The role of the assay should be that of confirming positive results from lower tier chromosomal aberration-detecting systems (confirming in the sense of indicating the ability of the chemical to penetrate gonadal tissue and to produce cytogenetic damage). The dominant lethal assay should not be used as a risk assessment method.

Mutations induced by X-rays at the HPRT locus in cultured Chinese hamster cells are mostly large deletions.

Abstract: We investigated the molecular basis of 19 X-ray-induced HPRT-deficient mutants of V79 Chinese hamster cells with Southern hybridisation techniques. 12 of those mutants suffer from a big deletion (greater than 10 kb) of HPRT DNA sequences. Cytological studies of chromosome preparations of those 12 deletion mutants showed that in at least 3 of these mutants part of the long arm of the X-chromosome was lost. After correction for spontaneous arising mutations we estimate that at least 70-80% of X-ray-induced mutations are caused by large deletions.

Effects of X-irradiation on cell-cycle progression, induction of chromosomal aberrations and cell killing in ataxia telangiectasia (AT) fibroblasts

Abstract: Survival, cumulative labeling indices, chromosomal aberrations and cell-cycle distribution by flow microfluorometry (FMF) were studied in fibroblasts from normal and three ataxia telangiectasia (AT) families after X-irradiation during density-inhibition of growth and immediate release by subculture to low density. Homozygotic AT (proband) fibroblasts were very hypersensitive to cell killing by X-irradiation (D0 = 40–45 rad). Fibroblasts from AT heterozygotes (parents) were minimally hypersensitive, with D0's (100–110 rad) slightly lower than those for normal fibroblasts (D0 = 120–140 rad). There were three different response groups for a G1 phase block induced by 400 rad of X-rays: (1) minimal or no G1 block was observed in AT homozygote cell strains; (2) 10–20% of the cells were blocked in G1 in normal cell strains; and (3) 50% or more of the cells were blocked in AT heterozygote strains. FMF profiles and cumulative labeling indices showed that homozygotic AT cells irradiated in plateau phase moved into the S-phase following subculture with no additional delay over non-irradiated controls. Homozygotic AT cells showed not only a 4–5 times higher frequency of X-ray-induced chromosomal aberrations than normal strains, but approximately 30% of these were of the chromatid-type. There were no differences in the frequency or type of X-ray-induced chromosomal aberrations between normal and heterozygotic AT cells.

A method to quantify spontaneous and in vivo induced thioguanine-resistant mouse lymphocytes.

Abstract: A clonogenic assay to quantify thioguanine (TG)-resistant (TGr) spleen lymphocytes in the mouse has been developed to support studies of in vivo mutation affecting the hypoxanthine phosphoribosyltransferase (hprt) locus. Lymphocytes are cultured in 96-well microtiter plates for 9 days with proliferation initiated by the mitogen concanavalin A and supported thereafter by conditioned medium containing interleukin-2. Lymphocytes are plated at high densities (4–8 × 105/well) with TG and irradiated L5178Y lymphoma cells (104/well) to detect the presence of TGr cells. To determine the cloning efficiency without TG lymphocytes are plated at a low density (10/well) with irradiated L5178Y cells and irradiated lymphocytes (4–8 × 105/well). Proliferation of cells is detected by [3H]thymidine incorporation and scintillation spectrometry. Spontaneous frequencies of TGr clones are independent of TG dose from 0.2 to 10 μg/ml and independent of cell density over the range cited. The TGr clones tested have < 10% hypoxanthine incorporation in vivo relative to unselected clones and have stable phenotypes i n the absence of selection. The spontaneous frequency of TGr cells ranged from 1 to 3 × 10−6. In vivo treatment of mice intraperitoneally with ethylnitrosourea 15 days prior to in vitro culture resulted in a linear dose-related increase of TGr cells, with 70.2 mg/kg inducing a frequency of TGr cells of 2 × 10−5.

Relationship between lesions photoinduced by mono- and bi-functional furocoumarins in DNA and genotoxic effects in diploid yeast

Abstract: The induction of genetic effects was studied in a diploid strain of Saccharomyces cerevisiae (D 7 ) after treatments with the monofunctional furocoumarins 7-methylpyrido[3,4- c ]psoralen (MePyPs), pyridol[3,4- c ]psoralen (PyPs) and 3-carbethoxypsoralen (3-CPs) and the bifunctional furocoumarins 5-methoxypsoralen (5-MOP) and 8-methoxypsoralen (8-MOP) in the presence of 365-nm radiation. The DNA photobinding of radioactively labelled MePyPs, 3-CPs, 5-MOP and 8-MOP was determined in parallel. The DNA-photobinding capacity was highest for MePyPs followed in decreasing order by 5-MOP, 3-CPs and 8-MOP. At a concentration of 5 μM and 4.2 kJ/m 2 of 365-nm radiation approximately 160, 66, 60 and 16 adducts per 10 6 base pairs were formed by MePyPs, 5-MOP, 3-CPs and 8-MOP, respectively. The activity of MePyPs and PyPs for the induction of lethal effects lay in the same range as that of 5-MOP whereas 8-MOP was 3 times less active and 3-CPs showed very little activity. For the induction of mitotic gene conversion and genetically altered colonies including mitotic crossing-over the order of activity was about the same as that observed for the induction of lethal effects: MePyPs5-MOP⪢PyPs8-MOP ⪢ 3-CPs. Nuclear reversions were induced most effectively by 5-MOP, 8-MOP being about 3 times less effective. Up to 4 and 6 kJ/m 2 of 365-nm radiation, MePyPs and PyPs, respectively, were less mutagenic than 8-MOP but became more mutagenic at higher doses. At equal survival, the pyridopsoralens were, however, clearly less mutagenic than the bifunctional furocoumarins 8-MOP and 5-MOP. By plotting the genetic data versus the number of lesions induced in DNA, it was shown that the monoadducts induced by the monofunctional furocoumarins MePyPs and 3-CPs exert a relatively low potential for the induction of lethal and nuclear genetic events as compared to photoadditions induced by the bifunctional furocoumarins 8-MOP and 5-MOP. However, at a very high density, the monoadducts induced by MePyPs became as lethal and as mutagenic as the mixture of mono- and biadducts induced by 8-MOP and 5-MOP probably due to overloading of cellular repair capacities. At equal numbers of lesions induced, 8-MOP showed a higher lethal and nuclear genetic potential than 5-MOP suggesting that mono- and biadducts may be produced at different ratios and/or may show a certain specificity. Monoadducts induced by MePyPs exhibited a higher efficiency than those induced by 3-CPs for the induction of lethal and nuclear genetic effects. The former adducts showed different relative efficiencies for the induction of the different genetic effects indicating a certain genetic specificity of the monoadducts induced. Thus, the genotoxic activity of furocoumarins appears to depend not only on the type of addition, mono- and biadducts, but also on the number and the isomers of adducts formed.

The two-step model of bacterial UV mutagenesis.

Abstract: Recent results are discussed which have led to a two-step model for UV mutagenesis in excision-deficient Escherichia coli. After exposure to UV, the replication fork is assumed to continue until immediately before certain photoproducts where it stops and leaves a gap which cannot be dealt with by recombination repair. In the first (misincorporation) step, bases (a proportion of which are 'wrong') are postulated to be inserted opposite the photoproduct under the direct influence of the recA gene product. These misincorporated bases can be revealed as mutations by delayed photoreversal in umuD,C and lexA (ind-) bacteria. Their level is determined by the particular allele of recA that is present (recA441 greater than recA+ greater than recA430) and their rate of formation by the amount of recA protein in the cell and the degree of enrichment of the medium. No other protein needs to be synthesized for this step to occur. The second (bypass) step requires induced levels of the products of the umuD and C genes which are postulated to facilitate continued DNA synthesis on the priming end opposite the photoproduct. In principle, further errors could be made at this stage which might appear as 'hitch-hiking' rather than 'targeted' mutations.

Induction of gene mutations in mice: the multiple endpoint approach.

Abstract: The multiple endpoint mammalian mutagenesis approach developed in our institute screens in the same animal for recessive specific-locus alleles at 7 loci, approximately 30 loci coding for dominant-cataract mutations, 23 loci controlling protein-charge changes and 12 loci for enzyme-activity alterations. Experiments to screen for the approximately 70 loci in the same offspring of treated male mice were performed with ethylnitrosourea (ENU), procarbazine and X-ray exposure. Mutations were recovered for each genetic endpoint in all treatment groups where a sufficient number of offspring was scored. ENU treatment is highly effective in inducing mutations to all genetic endpoints. The mutations were confirmed by breeding tests. The mutation rates to specific-locus and enzyme-activity alleles were both higher than the mutation rates to either dominant-cataract or protein-charge alleles. The advantages and possibilities of the multiple endpoint approach are discussed in detail.

Direct analysis of radiation-induced chromosome fragments and rings in unstimulated human peripheral blood lymphocytes by means of the premature chromosome condensation technique.

Abstract: Development of the procedure to stimulate peripheral blood lymphocytes has greatly facilitated the understanding of chromosome aberration formation and repair mechanisms in human cells. Yet, because radiation induces far more initial chromosome breaks than are observed as aberrations in metaphase, it has not been possible to examine the kinetics of primary chromosome breakage and rejoining with this procedure. An improved method to induce premature chromosome condensation is unstimulated lymphocytes has been used to study primary chromosome breakage, rejoining, and ring formation at various times after irradiation with up to 800 rad of X-rays. The dose-response relations for chromosome fragments analyzed immediately or 1, 2, or 24 h after exposure were found to be linear. Rapid rejoining of chromosome fragments, which takes place in the first 3 h after X-ray exposure, was not correlated with a simultaneous increase in the formation of rings. The yield of rings per cell scored 24 h after irradiation, however, increased significantly and fit a linear quadratic equation. Both chromosome fragment rejoining and ring formation were completed about 6 h after irradiation. The frequency distributions of rings among cells followed a Poisson distribution, whereas chromosome fragments were overdispersed.

Antimutagenic activity of some naturally occurring compounds towards cigarette-smoke condensate and benzo[a]pyrene in the Salmonella/microsome assay.

Abstract: Several compounds, occurring in food, were tested for antimutagenic activity towards cigarette-smoke condensate (CSC) and benzo[ a ]pyrene (BaP). Antimutagenicity was determined in the Salmonella/microsome test, with tester strain TA98, in the presence of rat-liver homogenate. Dose-response curves did show reduction of CSC- and BaP-induced mutagenicity by ellagic acid, riboflavin and chlorophyllin. Chlorophyll a and chlorophyll b , although less distinct, also inhibited CSC- and BaP-induced mutagenicity. Ascorbic acid, β -carotene, tocopherol acetate, chlorogenic acid and butyl hydroxyanisole did not have any influence on the mutagenicity of CSC and BaP. The similarity in results for cigarette-smoke condensate and for BaP indicates that a general mechanism may be involved in the inhibition CSC- and BaP-induced mutagenicity.

In vivo mutant frequency rises among breast cancer patients after exposure to high doses of γ-radiation

Abstract: Human in vivo mutant frequencies can be measured by cloning freshly isolated lymphocytes in selective media containing 6-thioguanine (TG). This method was applied to monitoring environmental mutagenesis, by studying lymphocytes separated from peripheral blood of 12 cancer patients undergoing radiotherapy. Before therapy, cancer patients had an average 8.6 × 10−6 mutants/cell, compared to 2.4 × 10−6 mutants/cell for heart patients and 1.1 × 10−6 mutants/cell for healthy controls. After exposure of cancer patients to 50 Gy of γ-radiation delivered to the treated area, or an estimated 4 Gy received by each lymphocyte, patients averaged 36.8 × 10−6 mutants/viable cell.

Bio-antimutagenic effects of tannic acid on UV and chemically induced mutagenesis in Escherichia coli B/r

Abstract: Tannic acid suppressed the mutagenesis in E. coli B/r WP2 trp − induced by UV or 4-nitroquinoline 1-oxide (4NQO), but not that induced by γ-rays or N -methyl- N ′-nitro- N -nitrosoguanidine (MNNG). The depression of mutations induced by UV was most remarkable in the DNA-repair-proficient strain (WP2). Tannic acid, however, showed no bio-antimutagenic effect in the excision repair-deficient strain (WP2 s uvrA − or ZA159 uvrB − ) under the test conditions where no cellular toxicity was observed. The effect ceased within 30 min after UV irradiation. The inhibition of the expression of Trp + phenotype and the delay of the first cell division after UV irradiation were not observed in the presence of tannic acid. From these results we conclude that tannic acid may enhance the excision-repair system probably by activating the repair enzymes or by interacting with DNA.

1-Nitrosopyrene: an intermediate in the metabolic activation of 1-nitropyrene to a mutagen in Salmonella typhimurium TA1538.

Abstract: Incubation of Salmonella typhimurium TA1538, in suspension culture, with 1.5 or 23 μM 1-nitropyrene resulted in a time-dependent increase in reversions for up to 7 h. In contrast, when the bacteria were exposed to 1.5 μM 1-nitrosopyrene, a reduction product of 1-nitropyrene, maximum reversion induction occurred after 1 h and a much higher mutation frequency was detected. Examination of DNA isolated from Salmonella typhimurium incubated with 4.1 μM [4,5,9,10-3H]1-nitrosopyrene indicated the presence of one major adduct, N-(deoxyguanosin-8-yl)-1-aminopyrene, the same adduct observed previously when the bacteria were exposed to 1-nitropyrene. When calf thymus DNA was treated with 1-nitrosopyrene in the presence of ascorbic acid, 1-aminopyrene was formed concomitant with the production of N-(deoxyguanosin-8-yl)-1-aminopyrene. In the absence of ascorbic acid, a 20-fold reduction in DNA binding was observed and 1-aminopyrene was not detected. The observations that 1-nitrosopyrene forms the same DNA adduct and is more mutagenic than 1-nitropyrene, suggest that 1-nitrosopyrene is an intermediate in the mutagenic activation of 1-nitropyrene in Salmonella typhimurium TA1538. Since reduction of 1-nitrosopyrene was necessary to get appreciable DNA binding in vitro, further reduction of 1-nitrosopyrene t N-hydroxy-1-aminopyrene is probably required in the activation pathway.

Spontaneous mutagenesis: the roles of DNA repair, replication, and recombination

Abstract: There appears to be no dearth of mechanisms to explain spontaneous mutagenesis. In the case of base substitutions, data for bacteriophage T4 and especially for E. coli and S. cerevisiae suggest important roles in spontaneous mutagenesis for the error-prone repair of DNA damage (to produce mutations) and for error-free repair of DNA damage (to avoid mutagenesis). Data from the very limited number of studies on the subject suggest that about 50% of the spontaneous base substitutions in E. coli, and perhaps 90% in S. cerevisiae are due to error-prone DNA repair. On the other hand, spontaneous frameshifts and deletions seem to result from mechanisms involving recombination and replication. Spontaneous insertions have been shown to be important in the strongly polar inactivation of certain loci, but it is less important at other loci. Perhaps with continued study, the term "spontaneous mutagenesis" will be replaced by more specific terms such as 5-methylcytosine deamination mutagenesis, fatty acid oxidation mutagenesis, phenylalanine mutagenesis, and imprecise-recombination mutagenesis. While most studies have concentrated on mutator mutations, the most conclusive data for the actual source of spontaneous mutations have come from the study of antimutator mutations. Further study in this area, perhaps along with an understanding of chemical antimutagens, should be invaluable in clarifying the bases of spontaneous mutagenesis.