Specificity of base substitution mutations induced by the dietary carcinogens 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP) and 2-amino-3-methylimidazo[4,5-f]quinoline (IQ) in Salmonella

The base pair substitution mutational profiles induced by the heterocyclic amine cooked food mutagens PhIP and IQ in Salmonella typhimurium strains TA100 and TA1535 were determined by colony hybridization analysis. Both PhIP and IQ induced predominantly G→TA transversions in strain TA100 (rfa,ΔuvrB/pKM101) with a pronounced preference for the second codon position (CC→CAC; 72% of total). PhIP also reverted strain TA1535 (rfa, ΔuvrB) efficiently at concentrations similar to those required for strain TA100. In contrast to the PhIP-induced mutational profile observed in strain TA100, in strain TA1535 PhIP induced exclusively G→AT transitions at the second codon position (CC→CTC; 96–99% of total). Base substitution mutagenesis induced by heterocyclic amines related to PhIP is generally SOS-dependent, requiring the presence of plasmid pKM101 in Salmonella hisG46 strains. Thus, the SOS dependent reversion of S. typhimurium strain TA100 probably reflects error-prone lesion bypass at the major PhIP- guanosine adduct at the C-8 position. The G→AT transition mutations induced by PhIP in strain TA1535 appear to be SOS-independent, however, suggesting that these mutations may arise from the formation of PhIP-DNA adducts other than the replication-blocking C8-dG lesion. Environ. Mol. Mutagen. 31:327–332, 1998 © 1998 Wiley-Liss, Inc.     

Mutation spectra of the drinking water mutagen 3-chloro-4-methyl-5-hydroxy-2(5H)-furanone (MCF) in Salmonella TA100 and TA104: comparison to MX

The chlorinated drinking water mutagen 3-chloro-4-methyl-5-hydroxy-2(5H)-furanone (MCF) occurs at concentrations similar to or greater than that of the related furanone 3-chloro-4-(dichloromethyl)-5-hydroxy-2(5H)-furanone (MX). MCF and MX differ structurally only by replacement of a 3-methyl in MCF with a 3-dichloromethyl in MX; yet, MCF is significantly less mutagenic than MX and produces different adducts when reacted with nucleosides or DNA. To explore further the effects that these structural differences might have on the biological activity of MCF and MX, we determined the mutation spectra of MCF in Salmonella strains TA100 and TA104 and of MX in strain TA104; the spectrum of MX in TA100 had been determined previously. In TA100, which presents only GC targets for mutagenesis, MCF induced primarily (75%) GC --> TA transversions, with most of the remaining revertants (20%) being GC --> AT transitions. This spectrum was not significantly different from that of MX in TA100 (P = 0.07). In TA104, which presents both GC and AT targets, MCF induced a lower percentage (57%) of GC --> TA transversions, with most of the remaining revertants (33%) being AT --> TA transversions. In contrast, MX induced almost only (98%) GC --> TA transversions in TA104, with the remaining revertants (2%) being AT --> TA transversions. Thus, almost all (98%) of the MX mutations were targeted at GC sites in TA104, whereas only 63% of the MCF mutations were so targeted. These results are consistent with the published findings that MX: (1) forms an adduct on guanosine when reacted with guanosine, (2) induces apurinic sites in DNA, and (3) forms a minor adduct on adenosine when reacted with adenosine or DNA. The results are also consistent with evidence that MCF forms adenosine adducts when reacted with adenosine. Our results show that the replacement of the 4-methyl in MCF with a 4-dichloromethyl to form MX not only increases dramatically the mutagenic potency but also shifts significantly the mutagenic specificity from almost equal targeting of GC and AT sites by MCF to almost exclusive targeting of GC sites by MX. Environ. Mol. Mutagen. 35:106-113, 2000 Published 2000 Wiley-Liss, Inc.     

Mutagenic potency of MMS‐induced 1meA/3meC lesions in E. coli

The mutagenic activity of MMS in E. coli depends on the susceptibility of DNA bases to methylation and their repair by cellular defense systems. Among the lesions in methylated DNA is 1meA/3meC, which is recently recognized as being mutagenic. In this report, special attention is focused on the mutagenic properties of 1meA/3meC which, by the activity of AlkB‐dioxygenase, are quickly and efficiently converted to natural A/C bases in the DNA of E. coli alkB⁺ strains, preventing 1meA/3meC‐induced mutations. We have found that in the absence of AlkB‐mediated repair, MMS treatment results in an increased frequency of four types of base substitutions: GC→CG, GC→TA, AT→CG, and AT→TA, whereas overproduction of PolV in CC101–106 alkB^?/pRW134 strains leads to a markedly elevated level of GC→TA, GC→CG, and AT→TA transversions. It has been observed that in the case of AB1157 alkB^? strains, the MMS‐induced and 1meA/3meC‐dependent argE3→Arg⁺ reversion occurs efficiently, whereas lacZ^?→ Lac⁺ reversion in a set of CC101–106 alkB^? strains occurs with much lower frequency. We considered several reasons for this discrepancy, namely, the possible variance in the level of the PolV activity, the effect of the PolIV contents that is higher in CC101–106 than in AB1157 strains and the different genetic cell backgrounds in CC101–106 alkB^? and AB1157 alkB^? strains, respectively. We postulate that the difference in the number of targets undergoing mutation and different reactivity of MMS with ssDNA and dsDNA are responsible for the high (argE3→Arg⁺) and low (lacZ^? → Lac⁺) frequency of MMS—induced mutations. Environ. Mol. Mutagen. 2009. © 2009 Wiley‐Liss, Inc.     

Analysis of the ciprofloxacin-induced mutations in Salmonella typhimurium

The mutagenic events induced by ciprofloxacin, a potent antimicrobial agent, have been characterized. For this, a battery of His⁻ mutants of Salmonella typhimurium (hisG428, hisG46, hisC9070, and hisG1775 targets) that detects the six possible transitions and transversions [Levin and Ames (1986): Environ Mutagen 8:9–28] and two additional His⁻ strains (hisC3076 and hisD3052 targets) carrying frameshift mutations have been used. Our results indicate that GC→TA transversions are the major base-pair substitution induced by ciprofloxacin and that GC→AT transitions are also produced, but to a lesser degree. However, we cannot discard the fact that AT→TA transversions are also induced. In addition, the data indicate that the mutational specificity of ciprofloxacin depends on the location of the target. Intragenic base-pair substitutions are the most frequent mutations at the hisG428 target when it is on the chromosome, whereas 3 or 6 base-pair deletions are the major mutagenic events when this target is on the plasmid pAQ1. We have shown that ciprofloxacin also induces deletions/insertions at the hisC3076 and hisD3052 frameshift targets. Therefore, this inhibitor of DNA gyrase promotes a wide pattern of mutations including different kinds of base-pair substitutions, 3 or 6 base-pair deletions, and insertions/deletions resulting in frameshifts. All of these mutagenic events require the MucAB proteins involved in the error-prone repair, with the exception of base-pair insertions/deletions at the hisD3052 target, which are independent of the presence of plasmid pKM101. © 1996 Wiley-Liss, Inc.     

The effectiveness of Salmonella strains TA100, TA102 and TA104 for detecting mutagenicity of some aldehydes and peroxides

Several aldehydes and peroxides were tested for mutagenicityusing Salmonella typhimurium tester strains TA97a, TA100, TA102and TA104, in the presence and absence of Aroclor-induced liverS9 mix from F344 rats and B6C3F₁ mice, in either preincubationor vapour phase rotocols. Some chemicals were tested in additionalSalmonella strains. Benzaldehyde, butyraldehyde, benzoyl peroxide,4-chlorobenzaldehyde, isobutyraldehyde, propionaldehyde andveratraldehyde were non-mutagenic Acetaldehyde and dicumyl peroxidegave inconsistent results and furfural gave equivocal responsesin TA100 and TA104. Cumene hydroperoxide, formaldehyde and glutaraldehydewere mutagenic in TA100, TA102 and TA104. trans-Cinnamaldehydeexhibited a weak mutagenic response in TA100 with mouse liverS9 only. 2,4,5-Trimethoxybenzaldehyde was mutagenic only instrain TA1538 with rat liver S9. With the exception of butanoneperoxide, which was mutagenic only in TA104, all chemicals mutagenicin strains TA102 and/or TA104 were also mutagenic in TA100.The data do not, therefore, support the preferential use ofstrains TA102 and TA104 for screening aldehydes and peroxidesfor mutagenicity. For a number of these chemicals the advantagesof using TA102 or TA104 was in the increased responses comparedwith those obtained with TA100. Two of the four peroxides weremutagenic and one of these was mutagenic only with TA104. Thissuggests that strains TA102 and TA104 be used if peroxides arenot mutagemc in TA100 or TA97. ⁴Present addresses: ⁴British American Tobacco Ltd, SouthamptonSO15 8TL, UK ⁵FRAME, Nottingham NG1 4EE, UK ³To whom correspondence should be addressed. Tel: +1 919 541 4482; Fax: +1 919 541 2242; Email: zeiger{at}niehs.nih.gov      

Psoralen photochemotherapy,clinical efficacy,and photomutagenicity: The role of molecular epidemiology in minimizing risks

Photochemotherapy employing 8-methoxypsoralen and ultraviolet radiation (PUVA) is widely used in the treatment of psoriasis. The photoactivation of psoralens in skin cells leads to DNA photoadduct formation which may be responsible for the efficacy of PUVA. Subsequent mutations may lead to the increased incidence of squamous cell carcinoma (SCC). Mutations in the p53 tumor suppressor gene have been detected in many human cancers. In this review, p53 mutation spectra in murine and human SCC are compared to those obtained from murine cells and skin treated with PUVA as well as to the p53 mutation spectrum in human solar SCC. While the expected psoralen-type mutations at alternating AT sites were detected in the treated cells and murine SCC (average frequency > 40%), such mutations were not commonly detected in the human SCC (<10%). Other common mutations in the human SCC included: CG → TA transitions (18%) and CG → AT and TA → GC transversions (17 and 25%, respectively). In addition, the frequency of UVB-type mutations at dipyrimidine sites (CC → TT) in the SCC PUVA-treated psoriasis patients was comparable to that in patients with SCC from only solar exposure. A review of therapeutic history of these patients showed that many had also received UVB photo therapy. Furthermore, because sunlight is thought to be beneficial for psoriasis, nontherapeutic, casual UVB exposure cannot be excluded. Thus, the PUVA may have arisen from the solar mutations and PUVA may enhance tumor progression by other epigenetic effects. Environ. Mol. Mutagen. 31:105–112, 1998 © 1998 Wiley-Liss, Inc.     

DNA adducts,mutant frequencies,and mutation spectra in various organs of λlacZ mice exposed to ethylating agents

To investigate tissue-specific relations between DNA adducts and mutagenesis in vivo, λlacZ transgenic mice were treated i.p. with N-ethyl-N-nitrosourea (ENU), diethylnitrosamine (DEN), and ethyl methanesulphonate (EMS). In liver, bone marrow, and brain DNA from mice sacrificed at several time points after treatment O⁶-ethylguanine (O⁶-EtG) and N7-ethylguanine (N7-EtG) levels were determined as well as the mutant frequency (MF) in lacZ. In liver DNA of ENU- and DEN-treated mice, the bulk of O⁶-EtG was removed at 3 days after treatment, while the MF continued to increase thereafter. This suggests that O⁶-EtG is not the major premutagenic lesion in the liver. Indeed, sequence analysis of mutants showed only 24% GC → AT transitions, consistent with the O⁶-EtG lesion, and 28% TA → AT transversions, expected from O²-ethylthymine. In bone marrow after ENU treatment, a maximum mutation induction occurred at 3 days post-treatment, of which 43% were GC → AT mutations and 22% were TA → AT mutations. This suggests that in bone marrow O⁶-EtG may be a major premutagenic lesion at the 3-day time point. In liver and bone marrow, EMS treatment gave rise to a high level of N7-EtG and a low level of O⁶-EtG but no increase in MF. No adducts or mutation induction were observed in bone marrow of DEN-treated mice. No MF increase was observed in the brain of either ENU- or EMS-treated mice, although O⁶- and N7-adducts were present. Environ. Mol. Mutagen. 31:18–31, 1998. © 1998 Wiley-Liss, Inc.     

Genetic differences between the standard Ames tester strains TA100 and TA98

The standard Ames tester strains of Salmonella typhimurium areseparated by many steps in their pedigree, some involving mutagentreatments, and contain independently isolated uvrB-bio-galdeletions and rfa mutations. In this work the araD531 mutationwas introduced into the Ames tester strains TA100 and TA98.The responsiveness of the resulting strains (BA15 and BA14)to a number of chemical mutagens was then assessed by monitoringthe induction of forward mutations to L-arabinose resistance(Ara test). Here we have shown that these two strains of theAmes test differ greatly in their responses to mutagens, inways that are not associated with the mutagenic specificitiesof the original his mutations. In general, the genetic backgroundof strain TA100 appears to be more sensitive to the killingeffects of chemicals than that of TA98. The greatest differenceswere found with nifurtimox (NFX) and its analogue, compound1K. The Ara test responded to the mutagenic effects of thesetwo nitrofurans when carried out in the genetic background ofstrain TA98 but not in that of TA100. A higher sensitivity tothe lethal effects of NFX and 1K together with the greater nitroreductioncapability of strain TA100 as compared with TA98 might explainthe differences. In conclusion, our results indicate that thestandard Ames S. typhimurium tester strains are not isogenicand that genetic differences at loci other than his might besignificant for mutagenicity testing. To this respect the routineuse of the isogenic set of S. typhimurium strains constructedby Popkin et al. (Mut. Res., 224, 453–464, 1989) and derivedfrom strain hisD3052 (as the standard TA98) seems advisable.     

Mutational spectra induced by flavonoid extracts from pepper tree (Schinus terebinthifolius,Raddi) stem bark

Flavonoids are a diverse family of plant compounds that are involved in pigmentation, protection, and endogenous regulation. Flavonoids also have medicinal applications, suggesting that they may exert chemoprotective effects. However, some studies have shown, that some plant flavonoids have oxidative and toxic effects, including those produced by Schinus terebinthifolius. In Brazil, extracts of this plant are widely used for medical purposes. In this study, we analyzed the mutagenic potential of two flavonoid‐enriched fractions from Brazilian pepper tree stem bark using Escherichia coli CC strains deficient and proficient in enzymes involved in the DNA repair of oxidative lesions. The highest mutagenic response was detected in the CC104mutMmutY strain but CC104mutY showed a higher mutation frequency than CC104mutM. The spectrum of mutations induced in plasmid DNA is composed of mutations typically caused by oxidative lesions. However, a new type of lesion must be occurred to explain the cytotoxicity, higher mutation rates in the CC104mutY strain, and the rare A:T → T:A and G:C → C:G transversions found in this work.     

mutation spectra of Glu-P-1 in Salmonella: Induction of hotspot frameshifts and site-specific base substitutions

We used colony probe hybridization and PCR/ DNA sequence analysis to determine the mutations in —1,640 revertants of the -1 frameshift allele hisD3052 and -260 revertants of the base substitution allele hisG46 of Salmonella typhimurium induced by the heterocyclic amine cooked food mutagen 2-amino-6-methyldipy-rido[1,2-a:3′,2′-d]imidazole (Glu-P-1). All of the mutations were at sites containing guanine, which is the base at which Glu-P-1 forms DNA adducts. A hotspot mutation involving the deletion of a CG or GC within the sequence CGCGCGCG accounted for 100% of the Glu-P-1-induced mutations at the frameshift allele in strains TA1978 (uvr⁺) and TA1538 (uvrB) and 99% in TA98 (uvrB, pKM101). To explain the induction of these hotspot mutations by Glu-P-1, we describe here a more detailed version of our recently proposed correct incorporation/ slippage model [Genetics:136:731, 1994]. We propose that after cytosine is incorporated correctly opposite a Glu-P-1-adducted guanine, various slipped intermediates may form (a total of 18), depending on which guanine is adducted and whether it remains within the helix or becomes extrahelical. This variety of mutational pathways may account for the high mutability of the hotspot sequence by Glu-P-1. Although the pKM101 plasmid does not influence the mutagenic potency or mutational spectrum of Glu-P-1 at the frameshift allele, it is required by Glu-P-1 to revert the base substitution allele, where Glu-P-1 induces G-C-→T-A transversions (75%) and G-C→T.A transitions (25%) exclusively at a single site (the second position of the CCC codon of the hisG46 allele). The limited (20–30 times less) base substitution mutagenic potency of Glu-P-1 relative to its frameshift mutagenic potency as well as the extreme site specificity exhibited by Glu-P-1 for base substitutions may have bearing on the lack of base substitutions identified in ras genes in Glu-P-1-induced rat colon tumors. © 1994 Wiley-Liss, Inc.     

Comparative mutagenic and genotoxic effects of three antimalarial drugs, chloroquine, primaquine and amodiaquine

Comparative mutagenic and genotoxic effects of three antimalarialdrugs, chloroquine, primaquine and amodiaquine, were assessedin the Ames mutagenicity assay (in strains TA97a, TA100, TA102and TA104) and in vivo sister chromatid exchange (SCE) and chromosomeaberration (CA) assays in bone marrow cells of mice. These arethe most commonly used antimalarial drugs available at presentthroughout the world. The results of the bacterial mutagenicityassays showed a very weak mutagenic effect of all three drugsin Salmonella strains TA97a and TA100 both with and withoutS9 mix and in TA104 only with S9 mix. The results of the invivo SCE and CA assays indicate that these three drugs are genotoxicin bone marrow cells of mice. ³To whom correspodence should be addressed. Tel: +91 33 473 3491; Fax: +91 33 473 5197; Email: iichbio{at}giascl01.vsnl.net.in     

Mutation spectra in salmonella of chlorinated,chloraminated, or ozonated drinking water extracts: Comparison to MX

Drinking water samples were prepared in a pilot-scale treatment plant by chlorination (Cl₂), chlorami-nation (NH₂Cl), ozonation (O₃), or O₃ followed by Cl₂ or NH₂Cl; and the nonvolatile acidic organics of the raw and treated waters were extracted by XAD/ethyl acetate and evaluated for mutagenicity in Salmonella (-S9). The extracts were 2–8 times more mutagenic in TA100 than in TA98, and the mutagenic potencies of the water extracts ranked similarly in both strains: Cl₂ > O₃ + Cl₂ > NH₂Cl > O₃ + NH₂Cl > O₃ > raw. 3-Chloro-4-(dichloro-methyl)-5-hydroxy-2(5H)-furanone (MX), which was estimated to account for ～-20% of the mutagenic activity of the extracts, was shown to be the most potent compound tested thus far in a prophage-in-duction assay in Escherichia coli and a forward-mutation assay in Salmonella TM677. The mutations in ～2,000 revertants of TA98 and TA 100 induced by MX and the water extracts were analyzed by colony probe hybridization and polymerase chain reaction/DNA sequence analysis. The water extracts and MX produced similar mutation spectra, which consisted in TA100 of predominantly of GC → TA transversions in the second position of the CCC (or GGG) target of the hisG46 allele. This spectrum resembles that produced by large aromatic compounds and is distinct from that produced by alkylating agents and the semivolatile drinking water mutagen dichloroacetic acid. In TA98, MX and those water extracts resulting from the introduction of the chlorine atom produced 50–70% hotspot 2-base deletions and 30–50% complex frameshifts (frameshifts with an adjacent base substitution—mostly GC → TA transversions as found in TA100). No other compound or mixture is known to induce such high frequencies of complex frameshifts. These results suggest that MX and “MX-like” compounds (possibly halogenated aromatics, such as halogenated polycyclic aromatic hydrocarbons) account for much of the mutagenic activity and specificity of the nonvolatile organics in drinking water and that these halogenated organics are especially capable of promoting misincorporation by the DNA replication complex. This study provides further evidence that the mutation spectrum of a complex mixture reflects the dominance of one or a few classes of chemical mutagens within the mixture. © 1995 Wiley-Liss, Inc.

1 This article is a US Government work and, as such, i s in the public domain in the United States of America.

     

mutation spectra in salmonella of complex mixtures: Comparison of urban air to benzo[a]pyrene

We used an ion-exchange procedure coupled to the Salmonella assay to fractionate the dichlo-romethane-extractable particulate organics from an urban air sample collected in Boise, ldaho. A resulting base/neutral fraction contained 81% of the mutagenic activity but only 36% of the mass of the unfractionated sample. Chemical analysis showed that polycyclic aromatic hydrocarbons (PAHs) accounted for much of the mutagenic activity of the air sample. Colony probe hybridization, PCR, and DNA sequence analysis were then used to determine the mutations induced by the complex mixtures and a model PAH, benzo[a]pyrene (BAP) in ～900 revertants of the frameshift hisD3052 allele and ～400 revertants of the base-substitution hisG46 allele. The majority (93–94%) of the mutations induced at the frameshift allele in strain TA98 by the whole or base/neutral fraction of the urban air sample was a hotspot 2-base deletion of a CG or GC within the sequence CGCGCGCG. The remaining mutations were complex frame-shifts that consisted of ?2 or +1 frameshifts associated with a flanking base substitution. BAP induced a somewhat similar pattern of mutations, with 70% being the hotspot mutation, 23% being complex frameshifts, and the remaining being deletions. The inferred base-substitution specificity associated with the complex frame-shifts at the hisD3052 allele (primarily G · C→T · A transversions) was consistent with the observation that this same transversion was the primary mutation induced by the whole urban air sample and BAP at the base-substitution allele in strain TA100. At the frameshift allele, adducts that promote correct incorporation/slippage could account for hotspot mutations, whereas those that promote misincorporation/slippage could account for complex frameshifts. At the base-substitution allele, a mixture of adducts or of adducts with multiple conformations could account for the observed proportion of transitions and transversions. Combined with the bioassay-directed chemical analysis, these results from the first mutation spectra of a complex mixture suggest that such spectra reflect the dominance of particular classes of chemical mutagens within the mixture. © 1994 Wiley-Liss, Inc.     

Molecular analyses of Salmonella hisG428 ochre revertants for rapid characterization of mutational specificity

The Salmonella typhimurium tester strains TA104 and TA102 weredeveloped primarily to aid in the detection of oxidative mutagensand other agents that react preferentially with AT base pairs.Reversion to prototrophy of strains harboring the hisG428 ochreallele can occur by (i) any of seven single base substitutionsor (ii) several tandem double base substitutions at the ochrecodon, (iii) in-frame deletions removing all or part of theochre codon or (iv) mutations at several distinct tRNA extragenicsuppressor loci. We have used allele-specific oligonucleotideprobes and DNA sequence analysis to characterize 625 revertantsof strain TA104 (hisG428, rfa,     

Preferential formation of deletions following in vivo exposure of postmeiotic Drosophila germ cells to the DNA etheno-adduct-forming carcinogen vinyl carbamate

DNA sequence changes induced in the vermilion gene of Drosophila following in vivo treatment of postmeiotic male germ cells with vinyl carbamate (VCA), an etheno-adduct-forming carcinogen, are primarily deletions. With VCA, 65% (13/20) of the vermilion mutants isolated from crosses of NER⁺ (nucleotide excision repair) males with NER⁺ females and 40% (6/15) obtained from matings with NER⁻ females were intra- or multi-locus deletions. Due to the insufficiently low mutagenic activity in NER⁺ genotypes of vinyl bromide (VB), another ϵ-adduct-forming carcinogen, vermilion mutants could only be isolated from crosses of VB-treated males with NER⁻ females. Of 14 vermilion mutants induced by VB, three carried large deletions. Twenty-two of 23 base substitutions derived from either VCA or VB experiments fell into one of the four categories expected from ϵ-adducts: three vermilion mutants had GC → AT transitions, five had AT → GC transitions, 7 carried GC → TA transversions, and 7 were AT → TA transversions. In view of the similarities in the response of mouse and Drosophila germ lines to several classes of alkylating agents, a high incidence of deletions is predicted to occur as well in postmeiotic germ cells of mice exposed to these types of agents. Environ. Mol. Mutagen. 30:321–329, 1997 © 1997 Wiley-Liss, Inc.     

Forward mutation inEscherichia coli and gene conversion inSaccharomyces cerevisiae compared quantitatively with reversion inSalmonella typhimurium

Forward mutation to c'azetidine carboxylic acid resistance inEscherichia coli WP2 and gene conversion at the tryptophan locus inSaccharomyces cerevisiae D4 were compared with reversion in strains TA98, TA100 and TA1537 ofS. typhimurium for sensitivity and range of agents detected. Eight mutagens of known and differing modes of action were used in assays in liquid culture.It was concluded that neither non-specific system could replace all theSalmonella strains in a programme of mutagenicity assays in liquid culture; however,E. coli caca ^r could adequately replace strains TA100 and TA1537, provided that TA98 was retained to detect certain types of frame-shift mutation. Also gene conversion would prove useful in the assay of antibacterial agents.     

Comparative mutagenicity of nine brands of coffee to Salmonella typhimurium TA100, TA102, and TA104

Nine coffee preparations, four caffeinated instant brands, three caffeinated drip coffees, and two decaffeinated coffees, one of which was an instant brand, were evaluated for mutagenicity by the Ames assay using Salmonella typhimurium TA100, TA102, and TA104. All the coffees contained direct-acting mutagens, which reverted the three strains. The inclusion of a rat microsomal enzyme preparation reduced the mutagenic response of the three strains in the presence of some of the coffee samples. Both glyoxal and methylglyoxal, 1,2-dicarbonyls found in the coffees were mutagenic. The concentration of glyoxal, methyglyoxal, diacetyl, and guiacol were measured by gas chromatography/mass spectrometry. Caffeine, furfural, and 5-methylfurfural concentrations were determined by high performance liquid chromatography. Although lower concentrations of methyglyoxal were found in the drip caffeinated coffees, the mutagenic potency of these preparations was higher than the instant coffees on a weight basis especially when TA104 was the indicator organism. Our findings agree with those of other workers who have shown that carbonyl compounds, which were present in all the brands tested, are partially responsible for the mutagenic response of coffee but that additional mutagens are also present.     

Mutagenicity and chemical analysis of airborne particulates from a rural area in italy

Mutagenic activities of a sample of characterized airborne particulates collected in a rural location near Ispra (Italy) during the summer of 1980 were detected by the Ames test using TA 1537, TA 1538, TA 98, and TA 100 Salmonella strains. Eight chemical classes fractionated from the CH₂Cl₂ extract of the particulates were bioassayed, and their mutagenicities (TA 98 plus S9) were as follows: organic bases I > polar neutrals > insolubles in cyclohexane > organic acid II > aerosol “in toto” > intermediate neutrals > polycyclic aromatic hydrocarbons > organic acids I > nonpolar neutrals. Periodical samples were taken in the same location from March to December 1981, extracted in dimethyl sulfoxide (DMSO), and directly tested with TA 1537, TA 98, and TA 100 Salmonella strains. For all the strains the mutagenicity varied markedly according to the season, the cold-month samples being much more mutagenic than the summer-month samples. The additional of S9 increased the mutagenicity (twofold) of the cold-month samples. The higher mutagenicity of the samples collected during the cold months could be due to greater amounts of mutagens produced by the combustion processes of domestic heating.     

Mutagenicity as a parameter in surface water monitoring programs—opportunity for water quality improvement

Effect-based analyses are being recognized as excellent tools to a comprehensive and reliable water quality evaluation to complement physical and chemical parameters. The Salmonella/microsome mutagenicity test was introduced in the São Paulo State water quality-monitoring program in 1999 and waters from 104 sites used to the production of drinking water were analyzed. Samples were tested after organic extraction, using the microsuspension version of the Salmonella/microsome assay with strains TA98 and TA100 with and without S9-mammalian metabolic system. Of the 1720 water samples analyzed in 20 years, 20% were positive; TA98 was the most sensitive strain, detecting alone 99%. Results were presented in hazard categories to facilitate water managers' understanding and general public communication. Hot spots of mutagenicity were identified, and pollution sources investigated. A flow scheme with instructions of how to proceed in case of mutagenic samples was developed and implemented in the monitoring program. Enforcement actions were taken to reduce exposure of humans and aquatic biota to mutagenic compounds. The results presented provide scientific basis for the incorporation of the Salmonella/microsome assay in a regulatory framework, and to guide water-quality managers. The inclusion of a mutagenicity assay using standardized conditions proved to be an opportunity to improve the quality of water, and the strategy presented here could be applied by any environmental agency around the world. Environ. Mol. Mutagen. 61:200–211, 2020. © 2019 Wiley Periodicals, Inc.     

Molecular analysis of hypoxanthine phosphoribosyl transferase mutants induced by glycidyl 1-naphthyl ether in mouse spleen cells in vivo

Treatment of C57BL/6J mice with an epoxide, glycidyl 1-naphthyl ether (GNE), resulted in an average of a 3.4-fold increase in frequency of 6-thioguanine-resistant mutants of mouse spleen T-lymphocytes. In similar experiments with the epoxide trichloropropylene oxide, no increase in mutant frequency was found. To determine the kind and location of mutations in the coding region of the hypoxanthine phosphoribosyl transferase (HPRT) gene, 26 GNE-induced mutants and 17 spontaneous mutants were analyzed by direct sequencing of polymerase chain reaction amplified cDNA. Among the GNE-induced mutants, HPRT cDNA was present in 22, while that from 4 could not be detected. Among the spontaneous mutants, HPRT cDNA was present in 15 and absent in 2. Among GNE-induced mutants, base substitution in HPRT occurred in 15 of 22 mutants analyzed. Nine of 15 base substitutions involved TA base pairs, primarily TA→CG transitions. Base substitutions were found throughout exons 3–7 but 46% of substitutions were located in exon 3 and one frameshift mutation involving a GC base pair in exon 3 was also observed. Among the spontaneous mutants, base substitutions of HPRT occurred in 7 of 15 mutants analyzed with 6 of 7 base substitutions involving a TA base pair and another 2 of the 15 mutants showed a 4 base pair deletion. The base substitution spectrum in GNE-induced mutants was different from that of the spontaneous mutants. © 1993 Wiley-Liss, Inc.