Mutagenicity tests of lipid oxidation products in Salmonella typhimurium: Monohydroperoxides and secondary oxidation products of methyl linoleate and methyl linolenate

Nine hydroperoxy and hydroperoxy-epidioxy oxidation products derived from either autoxidation (AO) or photosensitized oxidation (PO) of methyl linoleate (MLo) or methyl linolenate (MLn) were tested for mutagenic activity by the Salmonella typhimurium his⁺ reversion assay using strains TA100, TA98, TA102, TA97 and TA1537. All nine oxidation products, monohydroperoxides from AO-MLn (I) or from PO-MLn (II), dihydroperoxides from PO-MLo (III), AO-MLn (IV) or PO-MLn (V), hydroperoxy epidioxides from PO-MLo (VI), AO-MLn (VII) or PO-MLn (VIII) and hydroperoxy bis-epidioxides from PO-MLn (IX), were weakly mutagenic in strains TA97 and/or TA100. The hydroperoxy epidioxides (VI–IX) exhibited significantly greater activity in strain TA97 than did the monohydroperoxides (I, II) or the dihydroperoxides (III–V). In strain TA100, all of the oxidation products tested exhibited similar activity. No major differences between products derived from autoxidized and photooxidized MLn (I v. II, IV v. V, VII v. VIII) were obtained. Rat-liver S-9 reduced the toxicity of all oxidation products to the tester strains. The greatest mutant yields were usually obtained in the presence of S-9, but mutagenic potency was sometimes greater without S-9. The structural feature common to all of the mutagenic oxidation products was the presence of a hydroperoxy group, suggesting that this characteristic is responsible for the observed mutagenicity, either directly or through a common degradative pathway to reactive products of lower molecular weight.     

Synthesis,characterization and mutagenicity of new cis-[Pt(2-substituted-benzimidazole)2Cl2] complexes

In this study, four new platinum(II) complexes with the structures cis-[Pt(Ligand)2Cl2] (ligand = 2-(p-methoxy-/or-p-chlorobenzyl or p-methoxyphenyl)benzimidazol (1, 2, 4 respectively) and 5(6)-methyl-2-phenoxymethylbenzimidazole (3) were synthesized and characterized by their elemental analysis, and IR and 1H NMR spectra. The potentials of the Pt(II) complexes for short-term bacterial mutagenicity were tested in reverse-mutation assays using Salmonella typhimurium frame-shift strain T 98 and S. typhimurium TA 100 and TA 102 strains, which carry mutations particularly sensitive to reversion by DNA base-pair substitution. The tests were performed in the absence of S9 rat liver fraction. Among the complexes tested 1 had no mutagenic activity. Complex 4 was found to be weakly mutagenic in TA 98 only. The Pt(II) complexes 2 and 3 were found to be mutagenic in TA 98, TA 100 and TA 102.     

Short-term dermal toxicity and mutagenicity of coal coprocessing products in the rat.

The present study was conducted to determine the dermal toxicity of coal coprocessing products and to assess their potential health hazards. Groups of 10 male and 10 female Sprague-Dawley rats were administered dermally coal coprocessing products (light gas oil, LGO; heavy gas oil I, HGOI; heavy gas oil II, HGOII) at 1 g/kg body weight/d for 14 d. The control and positive control groups received normal saline and a coal liquefaction product (CLP) at the same dose level, respectively. Treatment with either the three fractions of coprocessing products or CLP caused decreased growth rate and food consumption in animals of both sexes. Liver enlargement occurred in groups treated with HGOI, HGOII, and CLP. Decreased serum glucose was observed in animals of both sexes treated with the three fractions and CLP. Treatment with HGOI and CLP caused an elevation of hepatic microsomal ethoxyresorufin deethylase activity in the rat of both sexes. The three fractions and CLP caused mild anemia. Mild treatment-related histological changes were observed in the liver, spleen, thyroid, bone marrow, and kidney. All three fractions of coprocessing products were tested for their mutagenicity in five strains of Salmonella typhimurium: TA98, TA100, TA1535, TA1537, and TA1538. HGOI, after metabolic activation, was found to be mutagenic in the strains of TA98, TA100, and TA1538. In contrast, HGOII was mutagenic in the five strains with or without metabolic activation. These data indicate that HGOI and HGOII are more toxic than LGO, and should be subjected to further studies to determine their long-term effects.     

Genotoxicity evaluation of Isaria sinclairii (ISE) extract

The mutagenic potential Isaria sinclairii, a traditional Chinese medicine composed of the fruiting bodies of I. sinclairii and its parasitic host larva, was evaluated using short-term genotoxicity tests, namely, the Ames test, chromosome aberration (CA), and micronuclei (MN) tests. In a Salmonella typhimurium assay, I. sinclairii extract (ISE) did not produce any mutagenic response in the absence or presence of 59 mix with TA98, TA100, TA1535, and TA1537. In the chromosome aberration (CA) test, ISE induced no significant effect on Chinese hamster ovary (CHO) cells compared with control. In the MN test, no significant change in the occurrence of micronucleated polychromatic erythrocytes was observed in male ICR mice intraperitoneally administered ISE at doses of 15, 150, or 1500 mg/kg. These results indicate that ISE has no mutagenic potential in these in vitro and in vivo systems.     

1,2-Dibromo compounds. Their mutagenicity in Salmonella strains differing in glutathione content and their alkylating potential

The mutagenic activities of several structurally related dibromo compounds were compared in Salmonella strains sensitive to base substitution mutagenesis (TA1535 and/or TA100) and in the glutathione (GSH)-deficient derivative TA100/NG-57, using a preincubation procedure. The compounds tested were 1,2-dibromoethane (DBE), 1,2-dibromopropane (DBP), 1,2-dibromo-1-phenylethane (DBPE) and model compounds for the half-mustards resulting from their conjugation with GSH, i.e. the N-acetyl-S-2-bromoalkyl-L-cysteine methyl esters SBE, SBP, and SBPE, respectively. The alkylating potential of all compounds was assayed with the 4-(p-nitrobenzyl)pyridine (NBP) alkylation test. Five of the compounds showed a good correlation between relative mutagenic activity in TA100 and electrophilic reactivity in the NBP-test, the order of decreasing potency being SBE greater than SBP greater than DBPE greater than DBP. SBPE displayed the highest reactivity in the NBP-test, but was devoid of mutagenic activity. The mutagenic activity of DBE was substantially decreased in the GSH-deficient strain TA100/NG-57 and could be restored by pretreating the cells with GSH. None of the other chemicals showed different mutagenic activities in TA100 and TA100/NG-57. From the results it can be concluded that 2-bromothioethers possess higher alkylating activities than the 1,2-dibromo compounds. Methyl substitution has a deactivating effect on the mutagenic activity. The results with the phenyl-substituted analogue, DBPE, show that a higher alkylating activity does not always lead to a higher mutagenic activity.     

Enzyme-mediated mutagenicity in Salmonella typhimurium of contaminants of synthetic indigo products

The mutagenic potential of two natural and seven synthetic, commercial indigo dye products was investigated. The natural products showed no mutagenicity in Salmonella typhimurium stains TA98 and TA100. In the presence of rat-liver homogenate from Aroclor 1254 pretreated rats all of the synthetic products were mutagenic towards strain TA98 but not towards strain TA100. The mutagenic effect produced was highly dependent on the amount of rat-liver homogenate added. Because of its high mutagenic potential, one product was further investigated. In the presence of rat-liver homogenate this product was weakly mutagenic towards strain TA1537 and strongly mutagenic towards strain TA1538. No mutagenicity was observed in strain TA1535. Experiments with purified synthetic indigo and natural indigo revealed that the mutagenic activity of the synthetic commercial products can be ascribed to one or more contaminants.     

Detection of genotoxicity and mutagenicity of chlorthiophos using micronucleus,chromosome aberration,sister chromatid exchange,and Ames tests

Potential mutagenic and genotoxic effects of Chlorthiophos, an organophosphate pesticide, were evaluated using four standard assays. Five different concentrations of the pesticide were tested by an Ames test using Salmonella typhimurium strains TA97, TA98, TA100, and TA102, with and without S9 metabolic activation. No concentrations of Chlorthiophos showed mutagenic activity on the TA97, TA100, and TA102 strains, with and without S9 fraction, but were all mutagenic to the TA98 strain without S9. Sister chromatid exchange (SCE), chromosome aberration (CA), and micronucleus (MN) tests were used to investigate the genotoxic effects of Chlorthiophos in human peripheral lymphocytes treated with 25, 50, 100, and 200 µg/mL concentrations of Chlorthiophos for 24 and 48 h. The nuclear division index (NDI), replication index (RI), and mitotic index (MI) were also calculated to determine the cytotoxicity of Chlorthiophos. No increase in SCE frequency was seen for any treatment period or concentration, but Chlorthiophos at 200 µg/mL increased the frequency of CAs. Increases in MN formation were only observed at Chlorthiophos concentrations of 200 µg/mL following 24 and 48 h treatments. Chlorthiophos treatment reduced the MI and NDI significantly, but had no effect on the RI. © 2014 Wiley Periodicals, Inc. Environ Toxicol 30: 937–945, 2015.     

绞股蓝总皂甙在沙门菌试验中的抗诱变作用

以阿地平（ＡＢ），柔红霉素（ＤＮ）．迭氨化钠（ＳＡ），丝裂霉素Ｃ（ＭＭＣ）分别作为沙门诱变菌株ＴＡ９７、ＴＡ９８、ＴＡ１００、ＴＡ１０２的诱变因子．以回变菌落数下降为指标。观察绞股蓝总皂甙（ＧＰ）的抗诱变作用。实验结果显示ＧＰ能拮抗以上４种诱变因子的诱变作用，并有剂量─效应关系。     

In vitro mutagenicity of water contaminants in complex mixtures

Trihalomethanes, Carbon tetrachloride and trichloroethylene were tested in single, binary and multi-complex mixtures using standard tester strains TA1535, TA1537, TA98 and TA100 of Salmonella typhimurium with and without addition of an in vitro metabolizing fraction S-9. Chloroform (CHCl3) was found to be mutagenic in all strains without S-9 activation. However, when tested with Bromoform (15%), which was nonmutagenic singly, the combined effect of the mixture was nonmutagenic. CCl4 was a direct mutagen (without S-9) in all strains except TA 1535. When combined with 85% CHCl3, only strains TA1535 and TA1537 were mutagenic. When tested with mammalian activation (S-9), CCl4 was mutagenic in all strains. However, when tested with CHCl3 (CHCl3 and CCl4-85:15), the mutagenic capability was lost. With or without S-9 Activation multi-complex mixture of CHCl3, CCl4 and TCE (85:8:7) was mutagenic for a narrow range of doses in all strains.     

Growth inhibition of intestinal bacteria and mutagenicity of 2-, 3-, 4-aminobiphenyls, benzidine, and biphenyl.

2-Aminobiphenyl (2-ABP), 3-aminobiphenyl (3-ABP) and 4-aminobiphenyl (4-ABP), but not benzidine (Bz) and biphenyl (Bp), were found to be inhibitory to the growth of human intestinal bacteria Bifidobacterium infantis ATCC 15697, B. bifidium ATCC 11863, Clostridium perfringens ATCC 13124, Escherichia coli ATCC 25922, E. coli ATCC 35218, Enterobacter cloacae ATCC 13047 and Salmonella typhimurium TA98, TA100, YG1041 at 10-200 microg/ml in culture broth. Bacteroides distasonis ATCC 8503, B. fragilis ATCC 25285, B. theataiotaomicron ATCC 29741, C. paraputrificum ATCC 26780, C. clostridiiforme ATCC 25537, Lactobacillus acidophilus ATCC 4356 and Enterococcus faecium ATCC 19434 were not inhibited by the above mentioned compounds in concentrations up to 200 microg/ml. The Ames Salmonella/microsome assay was employed to test the mutagenicity of the above-mentioned compounds using strains TA98 and TA100 in the presence and absence of Aroclor 1254-induced rat S9 mix. It was found that 4-ABP was mutagenic to both TA98 and TA100, and Bz was mutagenic to TA98 in the presence of rat S9 mix. 2-Aminobiphenyl, 3-ABP, and Bp were not mutagenic to both strains tested. 2-Aminobiphenyl and 3-ABP are chemical isomers of 4-ABP and are as strong as 4-ABP in inhibiting the growth of intestinal bacteria but not as mutagenic as 4-ABP. Evidence suggested that the mechanism of growth inhibition is not involved with the interaction of DNA that causes mutations, but rather on the electron transport system of these organisms.     

Bacterial metabolism of 2,6-dinitrotoluene with Salmonella typhimurium and mutagenicity of the metabolites of 2,6-dinitrotoluene and related compounds.

1. Metabolites produced by the incubation of 2,6-dinitrotoluene (2,6-DNT) with Salmonella typhimurium strains TA 98, TA 98/1,8-DNP6 and TA 98NR were examined. Mutagenicities of bacterial products and related compounds were also examined in the Ames assay using TA 98 and TA 100. 2. 2,6-DNT was converted to 2-nitroso-6-nitrotoluene, 2-hydroxylamino-6-nitrotoluene and 2-amino-6-nitrotoluene, with concurrent spontaneous formation of 2,2'-dimethyl-3,3'-dinitroazoxybenzene, in the incubation with TA 98 and TA 98/1,8-DNP6. Capacity of TA 98NR to reduce 2,6-DNT was much lower than that of TA 98 and TA 98/1,8-DNP6. 3. Bacterial products, including 2,2'-dimethyl-3,3'-dinitroazoxybenzene, showed no mutagenic activity in the Ames assay. 4. Results indicate that the lack of mutagenic activity of 2,6-DNT is not due to low reductive metabolism of 2,6-DNT by bacteria, but due to the lack of mutagenic activity of the bacterial reductive products of 2,6-DNT.     

Mutagenicity and cytotoxicity of N-methyl-2-pyrrolidinone and 4-(methylamino)butanoic acid in the Salmonella/microsome assay

The industrial solvent N-methyl-2-pyrrolidinone (NMP) and its hydrolysis product, 4-(methylamino)butanoic acid (N-MeGABA), were examined for mutagenicity and cytotoxicity in the Ames Salmonella/microsome assay. In order to detect a broad range of possible mutagenic endpoints, the following strains were used in the assay: base-pair substitution strains TA100, TA102 and TA104; frameshift strains TA97 and TA98; and repair proficient strains TA2638, UTH8413 and UTH8414. In the standard plate incorporation assay, six log-linear doses of each compound were tested; doses ranged from 0.01 to 1000 mumol/plate for NMP, and 0.01 to 316 mumol/plate for N-MeGABA. Neither compound was detectably mutagenic when tested in the presence and absence of metabolic activation by Aroclor-induced rat liver S9. NMP did show significant responses with strains TA102 and TA104 that were less than two-fold over background, but no clear dose-response relationships were evident. A preincubation modification of the assay was also performed, using strains TA98 and TA104. Mutagenic activity was not observed for NMP, while N-MeGABA showed significant responses with TA104 but dose-related mutagenicity was not established. Preincubation testing revealed both NMP and N-MeGABA to be cytotoxic to the test population of Salmonella at the highest treatment doses.     

Monitoring sãto paulo state rivers in brazil for mutagenic activity using the ames test

Organic extracts of raw water from 11 water courses of São Paulo State, Brazil, were collected during one year bimonthly and tested for mutagenicity using the Ames test, with strains TA98 and TA100 of Salmonella typhimurium with and without metabolic activation. The samples were extracted with XAD₂ resin and eluted with methanol and methylene chloride. From the 75 samples analyzed, 14 showed positive responses and 8 were considered marginal, making up 29% of mutagenic samples. The percentage of mutagenic samples in October (spring) was 9%, increasing to 64% in February (summer), and decreased to 9% again in August (winter). Paraiba do Sul river showed the higher percentage of mutagenic samples (67%) and Capivari river the highest mutagenic sample (1787 and 3265 revertants per liter for TA98 without and with S9, respectively). The amplitude of the mutagenic response was 39–3265 revertants per liter for TA98 and 83–467 for TA100. The mutagenic samples showed direct and indirect mutagens, and TA98 detected the majority of responses, indicating prevalence of frameshift mutagens in these samples. © 1993 John Wiley & Sons, Inc.     

Release of mutagens after chemical or microbial degradation of beech wood lignin

The microbial or chemical degradation of lignin from untreated samples of beech wood dusts (Fagus silvatica) resulted in the release of different mutagenic responses in the Salmonella/mammalian plate incorporation assay. In the first experiment using chemical degradation of lignin, dust samples were pre-extracted using acetone-water; the lignin portions were degraded into simpler compounds which were further fractionated on a Sephadex-LH20 column. The compounds isolated from the second phase of Sephadex, representing substances with a 3-4 ring structure and/or those of the same molecular weight, were highly mutagenic towards Salmonella typhimurium TA100 in the presence of metabolic activation. These substances were also active to some extent in strain TA1537 both in the presence and absence of Aroclor-induced rat liver homogenates. In contrast, no direct- or indirect-acting mutagenicity was found when testing with strains TA97 and TA98. Strain TA1535 responded positively only to direct-acting mutagens in the fraction tested. The mutagenic fraction was found to be toxic to the cells when tested in a histidine-rich medium. Repurification of this mutagenic fraction, using silica-gel column chromatography, revealed much higher mutagenic activity than the test material towards strain TA100. In the second pilot experiment, Phanerochaete chrysosporium and Chaetomium globosum, which are known for their ability to degrade lignin, were each incubated with wood dusts in a mixture of physiological saline and nutrient broth for either 3 or 30 days. Significant mutagenic activity was observed with the dust extract after incubation with Ph. chrysosporium but not with Ch. globosum which is a known degrader of beech lignin. These results are discussed regarding hypotheses on the carcinogenicity of beech wood dusts.     

Evaluation, using Salmonella typhimurium, of the mutagenicity of seven chemicals found in cosmetics

Six chemicals used as ingredients in cosmetics were evaluated for mutagenic activity in Salmonella typhimurium. Two of these ingredients, trans-4-phenyl-3-butene-2-one and 2,2′,4,4′-tetrahydroxybenzophenone, were mutagenic in the presence of rat liver S-9 towards strains TA100 and TA1537 respectively. An impurity found in some cosmetic products, N-nitrosodiethanolamine, was mutagenic to S. typhimurium stains TA1535 and TA100 in the presence of hamster-liver S-9 but not rat-liver S-9.     

The effect of solvent and extraction methods on the bacterial mutagenicity of sidestream cigarette smoke

The mutagenic activity of sidestream cigarette smoke particles was estimated by testing sidestream cigarette smoke particles which had been collected under controlled burning conditions in the laboratory. Two different extraction methods (Soxhlet and ultrasonic agitation) and 3 different solvents (dichloromethane, methanol, and acetone) were compared for their efficiencies in the extraction of compounds from sidestream cigarette smoke particles which are mutagenic in the Ames test. The mutagenic activity of the sidestream smoke particles was estimated to be 15,000-20,000 revertants per cigarette in TA98 with metabolic activation and 12,000-17,000 revertants per cigarette in TA100 without metabolic activation. Only weak mutagenic activity was detected in TA98 without activation and in TA100 with activation. Under test conditions used, ultrasonic agitation produced the most consistent results and acetone extraction produced the highest levels of mutagenic activity.     

Mutagenic potentials of Amberlite XAD-2-resin extracts obtained from river and drinking waters in the Northwest district of Chiba, Japan

Amberlite XAD-2 resin extracts of river and drinking water sampled from the Northwest district of Chiba Prefecture in each month during the period from January to December 2008 were investigated to characterize and determine their mutagenic potentials and polycyclic aromatic hydrocarbon (PAH) levels. The extracts from the river water were shown to be mutagenic in Salmonella typhimurium TA98 (a flameshift mutagen) without S9 mix, with higher mutagenic responses in summer and early fall seasons. While the drinking water extracts exhibited weak mutagenicity in both the TA98 and TA100 strains (a base-pair substitution mutagen) without S9 mix, with high mutagenic responses in fall and early winter seasons. GC/MS determinations of the water concentrates showed some seasonal scatter in PAH levels in river water. In contrast, comparatively high concentrations of PAHs were observed for drinking water samples collected during warmer seasons. Statistical studies revealed that there is a lower correlation between the levels of flameshift mutagenicity and the concentrations of PAH in the river water concentrations, but a higher correlation between them in the drinking water samples.     

A notable antimutagenicity of two nonmutagenic novel oxadiazoles in Salmonella mutagenicity assay

The mutagenic activity of two newly synthesized oxadiazoles: 1,3-bis(5-benzylthio-1,3,4-oxadiazol-2-yl) benzene (M1) and 1,4-bis(5-benzylthio-1,3,4-oxadiazol-2-yl) benzene (M2) was studied in Salmonella typhimurium strains TA97, TA100, TA102 and TA1537 in the presence and absence of S9mix. The antimutagenicity of M1 and M2 against H2O2, sodium azide (SA) and 4-nitro-o-phenylene diamine (NPD) using the tester strains TA102, TA100 and TA97, respectively, was also investigated. The two compounds were found to be nonmutagenic using the four tester strains. However, they showed high mutagenic repression activity against hydrogen peroxide (95% and 97% for M1 and M2, respectively, at a concentration of 335 micrograms/plate). Moderate mutagenic repression against NPD (58% and 55% for M1 and M2, respectively, at a concentration of 167.5 micrograms/plate) and low mutagenic repression against SA (21% and 33% for M1 and M2 respectively, at a concentration of 335 micrograms/plate) was detected. The obtained results are very encouraging to test the above mentioned compounds as anticarcinogens.     

Using base-specific Salmonella tester strains to characterize the types of mutation induced by benzidine and benzidine congeners after reductive metabolism.

Although benzidine (Bz), 4-aminobiphenyl (ABP), 3,3′-dichlorobenzidine HCl (DCBz), 3,3′-dimethylbenzidine (DMBz), 3,3′-dimethoxybenzidine (DMOBz) and the benzidine congener-based dye trypan blue (TB) produce primarily frameshift mutations in Salmonella typhimurium, the base-substitution strain TA100 also responds to these compounds when S9 is present. Performing DNA sequence analysis, other investigators have shown that ABP induces frameshift, base-pair and complex mutations. Also, it was found that an uninduced hamster liver S9 preparation with glucose-6-phosphate dehydrogenase, FMN, NADH and four times glucose 6-phosphate gave a stronger mutagenic response than the conventional plate incorporation with rat S9 activation mixture for all the compounds tested. Using the base-specific tester strains of S. typhimurium (TA7001–TA7006) with the above reductive metabolic activation system, we surveyed these compounds for the ability to produce specific base-pair substitutions after reductive metabolism. Bz was weakly mutagenic in TA7005 (0.04 revertants/μg). ABP was mutagenic in TA7002 (1.4 revertants/μg), TA7004 (0.6 revertants/μg), TA7005 (2.98 revertants/μg) and TA7006 (0.4 revertants/μg). DCBz was weakly mutagenic in TA7004 (0.01 revertants/μg). It was concluded that benzidine induced some CG->AT transversions in addition to frameshift mutations. ABP induced TA->AT, CG->AT, and CG->GC transversions as well as GC->AT transitions. DCBz induced only GC->AT transitions. Because DMBz, DMOBz and TB were not mutagenic in this base-substitution mutagen detection system, their mutagenic activity was attributed strictly to frameshift mechanisms.     

In vitro mutagenicity of rubber chemicals and their nitrosation products

14 chemicals employed in rubber manufacture were assayed in the Salmonella reversion test with the strains TA98 and TA100. Mixed diaryl-p-phenylenediamines were weakly mutagenic in TA98 after metabolic activation; poly-p-dinitrosobenzene was active in TA98 without as well as with S9. After in vitro reaction with nitrite at low pH, mixed diaryl-p-phenylenediamines became directly mutagenic in both strains, whereas poly-p-dinitrosobenzene retained its activity unchanged. Furthermore, 4 of the remaining chemicals acquired mutagenic characteristics: in the presence of S9, N,N'-dimethylpentyl-p-phenylenediamine reverted TA98 and hexamethylenetetramine reverted both TA98 and TA100; N-isopropyl-N'-phenyl-p-phenylenediamine was mutagenic in TA98 with and without S9; N-nitrosodiphenylamine was active in both strains without S9 and weakly mutagenic in TA98 after metabolic conversion.