Characteristics of mutagenesis and repair following UV irradiation in the methylotrophic bacterium Pseudomonas methanolica

The methylotrophic bacterium Pseudomonas methanolica was shown to be very resistant to the bactericidal and mutagenic action of UV irradiation. The activity of reparation processes after UV irradiation was also detected as well as a weak photoreactivating activity in P. methanolica. The decrease in the survival rate of irradiated cells under the action of caffeine and acriflavine, reparation inhibitors, is indicative of the activity of the excision reparation systems and, possibly, the recombination branch of postreplicative reparation. No activity of the inducible reparation system was found. It has been concluded that the elevated resistance of P. methanolica cells to the bactericidal and mutagenic action of short-wavelength UV irradiation is associated with the activity of the reparation systems.     

Ethylene Production from Pardee's CO2 Buffers

Fifteen milliliters of Pardee's CO² buffer containing diethanolamine, thionrea, potassium bicarbonate and 6 N hydrochloric acid produces up to 108 μg of ethylene during a 42 hour period. Only 1/25 as much ethylene is produced from monoethanolamine and still less from triethanolamine. All components of the buffer with the exception of hydrochloric acid are necessary for maximum ethylene production. Increasing the level of hydrochloric acid depresses ethylene production.     

Genetic effects of isoniazid and the relationship to in vivo and in vitro biotransformation

The mutagenic activity of isoniazid, N-acetyl-isoniazid and hydrazine dihydrochloride was investigated in S. typhimurium. Isoniazid was found to possess a weak mutagenic activity only in repair-deficient strains TA1535 and TA100 as well as in the plasmid-containing strain TA92 (10-30 mg/plate) in the Ames test without metabolic activation. Addition of microsomal enzymes by S9 mix decreased this direct mutagenic activity. In contrast, preincubation of isoniazid with crude liver homogenate from mice, rats or Syrian golden hamsters for 4 h prior to plating with bacteria liberated a mutagenic compound which is equally active in both repair-deficient and repair wild-type strains (0.5-5 mg/plate). This activation pathway is independent of NADPH, is heat-sensitive and is operative only in a total liver homogenate in suspension. The highest capacity for mutagenic activation was achieved with liver homogenate from hamsters, followed by that from mice and rats. Furthermore, this mutagenic activation is paralleled by formation of hydrazine, as demonstrated in colorimetric measurements with p-dimethylaminobenzaldehyde. N-Acetyl-isoniazid is without mutagenic activity under similar conditions, and liberation of hydrazine was never detected. This means that, besides having a weak direct genetic activity, isoniazid is a promutagen, and formation of hydrazine is the first step in metabolic activation. It is concluded that the genotoxic properties of isoniazid in mammals are primarily determined by the pharmacokinetic behavior of the ultimate reactive metabolite. This result must be taken into consideration in risk assessment performed for mutagenic and carcinogenic properties of isoniazid in man.     

Oxygen radical-mediated mutagenic effect of asbestos on human lymphocytes: suppression by oxygen radical scavengers.

The mutagenic effect of chrysotile asbestos fibers and zeolite and latex particles on human lymphocytes in whole blood has been studied. It was concluded that their mutagenic activities were mediated by oxygen radicals because they were inhibited by antioxidant enzymes (SOD and catalase) and oxygen radical scavengers (rutin, ascorbic acid, and bemitil). It was proposed that oxygen radicals were released by phagocytes activated upon exposure to mineral dusts and fibers. The study of lucigenin- and luminol-amplified chemiluminescence of peritoneal macrophages stimulated by chrysotile fibers and zeolite and latex particles has shown that their mutagenic action is probably mediated by different oxygen species, namely, by the iron-oxygen complexes (perferryl ions) plus hydrogen peroxide, hydrogen peroxide, and superoxide ion, respectively. From the oxygen radical scavengers studied, rutin was the most effective inhibitor of the mutagenic effect of mineral fibers and dusts.     

Evaluation of the mutagenic, antimutagenic and antiproliferative potential of Croton lechleri (Muell. Arg.) latex.

Sangre de Drago is a red viscous latex extracted from Croton lechleri (Euphorbiaceae) cortex, renowned in South American popular medicine for its wound-healing properties. The in vitro antiproliferative effects were determined on the human myelogenous leukemia K562 cells line (IC50 = 2.5 +/- 0.3 microg ml(-1)). The mutagenic and antimutagenic activity of C. lechleri sap was examined by means of the Ames/Salmonella test. No mutagenic activity was found on the Salmonella typhimurium strains T98 and T100, either with or without S9 activation. On the other hand, the sap showed an inhibitory effect against the mutagenic activity of the indirectly acting mutagen 2-Aminoanthracene in presence of S9 and a moderate protective activity against directly acting mutagens Sodium Azide and 2-Nitrofluorene. Therefore we suggest that C. lechleri sap interacts with the enzymes of the S9 mix, thereby inhibiting the transformation of 2-Aminoantracene into its active forms.     

Euglena gracilis as a supplementary test organism for detecting biologically active compounds

The mutagenic activity of more than 120 antimicrobial agents and protective components was investigated. Only Kathon showed a consistent increase in revertant counts in the Ames test onSalmonella typhimurium. The hereditary bleaching test onEuglena gracilis used for detecting extranuclear mutations, showed positive results for Kathon, triethanolamine and diamine silver tetraborate.     

The anaerobic biodegradation of diethanolamine by a nitrate reducing bacterium

The ability of bacterial cultures to degrade diethanolamine under anoxic conditions with nitrate as an electron acceptor was investigated. A mixed culture capable of anaerobic degradation of diethanolamine was obtained from river sediments by enrichment culture. From this a single bacterial strain was isolated which could use diethanolamine, monoethanolamine, triethanolamine and N-methyl diethanolamine as its sole carbon and energy sources either aerobically or anaerobically. Growth on diethanolamine was faster in the absence of oxygen. The accumulation of possible metabolites in the culture medium was determined as was the ability to grow on certain putative intermediates in the degradation of diethanolamine. A possible pathway for the degradation of ethanolamines by this organism is suggested.     

The anaerobic biodegradation of diethanolamine by a nitrate reducing bacterium

The ability of bacterial cultures to degrade diethanolamine under anoxic conditions with nitrate as an electron acceptor was investigated. A mixed culture capable of anaerobic degradation of diethanolamine was obtained from river sediments by enrichment culture. From this a single bacterial strain was isolated which could use diethanolamine, monoethanolamine, triethanolamine and N-methyl diethanolamine as its sole carbon and energy sources either aerobically or anaerobically. Growth on diethanolamine was faster in the absence of oxygen. The accumulation of possible metabolites in the culture medium was determined as was the ability to grow on certain putative intermediates in the degradation of diethanolamine. A possible pathway for the degradation of ethanolamines by this organism is suggested.     

Role of activated cellular c-Ha-ras-1 oncogene in the mutagenic effect of the plasmid pEJ6.6]

The role of the activated oncogene c-Ha-ras-1 from human bladder carcinoma integrated into the pEJ6.6 plasmid in the mutagenic effect of the plasmid was studied in Chinese hamster cells. The frequency of hypoxanthine-phosphoribosyltransferase defective (HPRT-) mutants after treatment with pEJ6.6 containing an active c-Ha-ras-1 exceeded that in control dishes treated with a derivative of pEJ6.6 plasmid with an inactivated oncogene. The inactivation was achieved by introducing a deletion into the coding region of the oncogene. The mutagenic effect was rather weak but statistically significant. Thus, the data obtained show that the mutagenic activity of pEJ6.6 plasmid is determined by its oncogene. The role of mutagenic effects of activated cellular oncogenes in malignant transformation is discussed.     

Mutagenicity of benzidine and benzidine-congener dyes and selected monoazo dyes in a modified Salmonella assay

We have evaluated the mutagenic activity of a series of diazo compounds derived from benzidine and its congeners o-tolidine, o-dianisidine and 3,3'-dichlorobenzidine as well as several monoazo compounds. The test system used was a modification of the standard Ames Salmonella assay in which FMN, hamster liver S9 and a preincubation step are used to facilitate azo reduction and detection of the resulting mutagenic aromatic amines. All of the benzidine and o-tolidine dyes tested were clearly mutagenic. The o-dianisidine dyes except for Direct Blue 218 were also mutagenic. Direct Blue 218 is a copper complex of the mutagenic o-dianisidine dye Direct Blue 15. Pigment Yellow 12, which is derived from 3,3'-dichlorobenzidine, could not be detected as mutagenic, presumably because of its lack of solubility in the test reaction mixture. Of the monoazo dyes tested, methyl orange was clearly mutagenic, while C.I. Acid Red 26 and Acid Dye (C.I. 16155; often referred to as Ponceau 3R) had marginal to weak mutagenic activity. Several commercial dye samples had greater mutagenic activity with the modified test protocol than did equimolar quantities of their mutagenic aromatic amine reduction products. Investigation of this phenomenon for Direct Black 38 and trypan blue showed that it was due to the presence of mutagenic impurities in these samples. The modified method used appears to be suitable for testing the mutagenicity of azo dyes, and it may also be useful for monitoring the presence of mutagenic or potentially carcinogenic impurities in otherwise nonmutagenic azo dyes.     

Cytogenetic effect of natural mutagenesis modifiers in a human lymphocyte culture. The action of caffeine during the induction of chromosome aberrations by gibberellic acid

Caffeine sensibilization of the cytogenetic activity of gibberellic acid in the culture of human lymphocytes was investigated. A four-five-fold increase in the level of chromosome aberrations by addition of caffeine into the culture with gibberellic acid on the 29th, 46th and 72nd hour of cultivation was revealed. Application of sensitizers of the chemical mutagens' action is recommended to study weak mutagenic activity of chemicals in routine test systems.     

The genetic activity of an alkaline solution of formaldehyde

Toxicity and genetic activity of disinfectant consisting of 1.5% paraform and 0.5% NaOH were studied. It was found that the preparation caused a weak mutagenic effect on Crepis capillaris and Chlorella roots, but had no effect in the Ames test and gonadal cells of mammals. The studies of mutagenic effect of the preparation on somatic cells of white mice show limits of the cytogenetic effect at the level of 3.5 g/kg (1/10 LD50).     

Mutagenic activity of the plant preparation KAC-81]

Mutagenic activity of vegetative preparation KAC-81 containing extracts of common wormwood and pine buds using crepis root seedlings, unicellular green alga of Chlorella indicator strains of Salmonellas TA 100, TA 1534, TA 1537, TA 50 and TA 98 as well as white mice and white rats has been studied. It is shown that the preparation caused a weak mutagenic effect on Crepis seedlings and Chlorella and no mutagenic effects on the indicator strains of salmonellas, in sex and somatic cells of mammals under single peroral action in maximally endured doses.     

Mutagenicity of polycyclic aromatic compounds (PAC) identified in source emissions and ambient air

Several polycyclic aromatic compounds (PAC) including nitrated and oxygenated derivatives of polycyclic aromatic hydrocarbons (PAH) were tested for mutagenic activity in the Salmonella/microsome assay. Among the compounds tested the isomer mix of nitro-1-hydroxypyrenes showed the highest direct mutagenic response in both the Salmonella strain TA98 and TA100 (1251 revertants/micrograms and 463 revertants/micrograms, respectively). The direct-acting mutagenicity of the nitro-1-hydroxypyrene isomer mix was dependent upon reduction of the nitro function as evidenced by the decrease in activity observed with the nitroreductase-deficient and arylhydroxylamine esterifying-deficient tester strains. The oxygenated derivatives of PAH containing aldehyde or keto groups showed weak or no mutagenic responses. In most cases addition of S9 was essential for any mutagenic activity and the strain TA100 was more sensitive than the strain TA98. Within this group, 7H-dibenzo[c,g]fluoren-7-one showed the highest mutagenic effect; 7 and 22 revertants/micrograms using the strains TA98 and TA100, respectively.     

The effect of short-term dietary modification on human fecal mutagenic activity

To assess the effect of short-term modification of diet on human fecal mutagenic activity, 6 subjects consumed 2 dietary regimes hypothesized to affect risk of colorectal cancer. After a 7-day baseline period, a 'low-risk' non-meat diet was consumed for 2 weeks followed by 2 weeks on a 'higher risk' diet which emphasized beef and refined grains. Fecal samples were collected at the end of each diet period and assayed for direct-acting mutagens with the fluctuation test for weak mutagens using Salmonella typhimurium TA100 and TA98 as tester strains. Fecal mutagenic activity on TA100 was increased for all subjects during the 'higher risk' period compared to the 'low risk' period. The average mutagenicity on TA98 was also increased, but the trend was not consistent for all subjects. The baseline diet and non-meat diet resulted in approximately equal mean fecal mutagenicity levels. These findings indicate that a diet high in meat and refined grain, as characterized here, increases fecal mutagenic activity within a 2-week period.     

Mutagenic activity of the pesticide hexachlorobutadiene

Pesticide hexachlorobutadiene (HCBD) has been studied for its mutagenic activity in two test systems: in vivo and in vitro. The above pesticide manifested a mutagenic activity in the bone marrow cells under peroral and inhalation effect. No clastogenic action in the human peripheral lymphocyte culture was observed. Results of this study and data available in literature permit concluding that HCBD is an indirect mutagen.     

On the mutagenicity of nitroimidazoles

Regarding mutagenicity, metronidazole is one of the best-investigated compounds of the nitroimidazoles. This drug is mutagenic on bacteria, especially if base-pair tester strains are used and bacterial nitroreductases are present. The serum levels attained in man after intake of this drug are sufficient to cause mutations in bacteria. Furthermore, interaction with and binding to DNA occurs under anaerobic conditions and sometimes DNA breaks are observed. However, metronidazole does not show mutagenic activity in mammalian cells in vitro; the micronucleus test is negative and chromosome aberrations are only found under anaerobic conditions. With microbial systems the mutagenicity of 47 nitroimidazoles has been investigated. Only 4 compounds were always negative in the applied test systems. Because with base-pair tester strains mutagenicity was assessed, this class of compounds should be regarded as a base-pair mutagen. In fungi, some compounds (e.g. ZK 26173 and azathioprine) are potent mutagens, whilst with most investigated nitroimidazoles only a weak or no mutagenic activity could be detected. Somewhat similar observations have been made in tests with Drosophila melanogaster, a test for gene mutations in mammalian cells, the micronucleus test, cytogenic tests and the dominant lethal test. The reduction products of metronidazole, misonidazole and 1-methyl-2-nitro-5-vinylimidazole, cause DNA damage if the nitro group is reduced in the presence of DNA. Reduction products are formed by microbes in the gut or by mammalian cells under anaerobic conditions. No teratological effect due to metronidazole or most other nitroimidazoles has been observed. Metronidazole is carcinogenic in mice and rats, and dimetridazole in rats. Up to the present, no carcinogenic effects have been observed in man. Azathioprine is probably carcinogenic for man. It is unlikely that the therapeutic applications of the presently used nitroimidazoles, except for azathioprine, will cause an increase in the tumor incidence in man or will cause other genotoxic effects, although such effects cannot be excluded with certainty.     

Genotoxicity of aminohydroxynaphthoquinones in bacteria, yeast, and Chinese hamster lung fibroblast cells

There are few studies on the biological activity of aminohydroxy derivates of 1,4-naphthoquinone (1,4-NQ) on prokaryotic and eukaryotic cells. We determined the mutagenic activity of 5-amino-8-hydroxy-1,4-naphthoquinone (ANQ) and 5-amino-2,8-dihydroxy-1,4-naphthoquinone (ANQ-OH) as compared to the unsubstituted 1,4-NQ in Salmonella/microsome assay. Potential mutagenic and recombinogenic effects and cytotoxicity were analyzed in haploid and diploid cultures of the yeast Saccharomyces cerevisiae. In Salmonella/microsome assay, 1,4-NQ was not mutagenic, whereas aminohydroxynaphthoquinones were weakly mutagenic in TA98 and TA102 strains. In haploid yeast in stationary growth phase (STAT), mutagenic response was only observed for the hom3 locus at the highest dose. In diploid yeast, aminohydroxynaphthoquinones did not induce any recombinogenic events, but 1,4-NQ was shown to be a recombinogenic agent. These results suggest that aminohydroxynaphthoquinones are weak mutagenic agents only in prokaryotic cells. The cytotoxicity of 1,4-NQ in yeast stationary cells was more significant in diploid cells as compared to that observed in haploid cells. However, ANQ and ANQOH were slightly cytotoxic in all treatments. Genotoxicity of these naphthoquinone compounds was also determined in V79 Chinese hamster lung fibroblast cells using standard Comet, as well as modified Comet assay with the bacterial enzymes formamidopyrimidine DNA-glycosylase (FPG) and endonuclease III (ENDOIII). Both 1,4-NQ and ANQ induced pronounced DNA damage in the standard Comet assay. The genotoxic effect of ANQ-OH was observed only at the highest dose. In presence of metabolic activation all substances showed genotoxic effects on V79 cells. Post-treatment of V79 cells with ENDOIII and FPG proteins did not have a significant effect on ANQ-OH-induced oxidative DNA damage as compared to standard alkaline Comet assay. However, all naphthoquinones were genotoxic in V79 cells in the presence of metabolic activation and post-treatment with enzymes, indicating that all compounds induced oxidative DNA damage in V79 cells. Our data suggest that aminohydroxynaphthoquinone pro-oxidant activity, together with their capability of DNA intercalation, have an important role in mutagenic and genotoxic activities.     

The genetic effects of the cytostatic drug TS160 on Chinese hamster fibroblasts in vitro

The cytostatic agent TS160 inhibited DNA synthesis in V79 cells while the course of RNA synthesis and protein synthesis were not changed significantly. DNA inhibition was in direct correlation with the inhibition of growth and reduction of colony-forming ability in the treated cells. The study of the mutagenic consequences of single or repeated TS160 treatments showed that TS160 had a significant mutagenic activity on Chinese hamster V79 cells. In the study of mutagenic effects of TS160, we used the method of repeated treatment of surviving cell fractions with this compound. This method is suitable for those mutagens (e.g. weak mutagens) whose mutagenic activity on mammalian cells in vitro might escape attention after application of a single dose. The possible causes of mutagenic effects of TS160 are discussed.     

Comparative mutagenicity of chemicals selected for test in the International Program on Chemical Safety''s collaborative study on plant systems for the detection of environmental mutagens

A review has been made of the four compounds (maleic hydrazide, methyl nitrosourea, sodium azide, azidoglycerol) tested in the International Program on Chemical Safety's collaborative study systems. Maleic hydrazide (MH) is a weak cytotoxic/mutagenic chemical in mammalian tissues and is classified as a class 4 chemical. In contrast, with few exceptions such as Arabidopsis, MH is a potent mutagen/clastogen in plant systems. The difference in its response between plant and animal tissue is likely due to differences in the way MH is metabolized. MH appears to be noncarcinogenic and has been given a negative NCI/NTP carcinogen rating.

Methyl nitrosourea (MNU) is a toxic, mutagenic, radiomimetic, carcinogenic, and teratogenic chemical. It has been shown to be a mutagen in bacteria, fungi, Drosophila, higher plants, and animal cells both in vitro and in vivo. MNU is a clastogen in both animal and human cell cultures, plant root tips and cell cultures inducing both chromosomes and chromatid aberrations as well as sister-chromatid exchanges. Carcinogenicity has been confirmed in numerous studies and involves the nervous system, intestine, kidney, stomach, bladder and uterus, in the rat, mouse, and hamster. MNU produces stage-specific teratogenic effects and also interferes with embryonic development. The experimental evidence that strongly indicates the mutagenic effects of MNU underlines the possible hazard of this compound to human beings. The experimental evidence for the stringent handling of this compound is clear.

Sodium azide (NaN₃) is cytotoxic in several animal and plant systems and functions by inhibiting protein synthesis and replicative DNA synthesis at low dosages. It is mutagenic in bacteria, higher plants and human cells and has been used as a positive control in some systems. In general, tests for clastogenicity have been negative or weakly positive. No evidence of carcinogenicity has been reported in a 2-year study seeking carcinogenic activity in male and female rats. Its advantages in comparison to other efficient mutagens are claimed to be a high production of gene mutations accompanied by a low frequency of chromosomal rearrangements and safer handling because of its nonclastogenic and noncarcinogenic action on humans.