Carcinogenic activity associated with halogenated acetones and acroleins in the mouse skin assay

Comparison of ferrate and ozone pre-oxidation on disinfection byproduct formation from chlorination and chloramination

This study investigated the effects of ferrate and ozone pre-oxidation on disinfection byproduct (DBP) formation from subsequent chlorination or chloramination. Two natural waters were treated at bench-scale under various scenarios (chlorine, chloramine, each with ferrate pre-oxidation, and each with pre-ozonation). The formation of brominated and iodinated DBPs in fortified natural waters was assessed. Results indicated ferrate and ozone pre-oxidation were comparable at molar equivalent doses for most DBPs. A net decrease in trihalomethanes (including iodinated forms), haloacetic acids (HAAs), dihaloacetonitrile, total organic chlorine, and total organic iodine was found with both pre-oxidants as compared to chlorination only. An increase in chloropicrin and minor changes in total organic bromine yield were caused by both pre-oxidants compared to chlorination only. However, ozone led to higher haloketone and chloropicrin formation potentials than ferrate. The relative performance of ferrate versus ozone for DBP precursor removal was affected by water quality (e.g., nature of organic matter and bromide concentration) and oxidant dose, and varied by DBP species. Ferrate and ozone pre-oxidation also decreased DBP formation from chloramination under most conditions. However, some increases in THM and dihaloacetonitrile formation potentials were observed at elevated bromide levels.

Final Report on the Safety Assessment of Peg-30,-33,-35,-36, ANd-40 Castor Oil and Peg-30 and-40 Hydrogenated Castor Oil

PEG Castor Oils and PEG Hydrogenated Castor Oils are a family of polyethylene glycol derivatives of castor oil and hydrogenated castor oil that are used in over 500 formulations representing a wide variety of cosmetic products. They are used as skin conditioning agents and as surfactants (emulsifying and or solubilizing agents). The PEG Castor Oils and PEG Hydrogenated Castor Oils include various chain lengths, depending on the quantity of ethylene oxide used in synthesis. Although not all polymer lengths have been studied, it is considered acceptable to extrapolate the results of the few that have been studied to allingredients in the family. Because a principal noncosmetic use of PEG Castor Oils is as solvents for intravenous drugs, clinical data are available that indicate intravenous exposure can result in cardiovascular changes. Results from animal studies indicate very high LD50 values, with some evidence of acute nephrotoxicity in rats but not in rabbits. Short-term studies with intravenous exposure produced some evidence of toxicity in dogs but not in rabbits. Intramusuclar injection produced no toxicity in several species, including dogs. Subchronic oral studies also were negative. No dermal or ocular irritation was observed in studies in rabbits. Irritation was seen during induction, but no sen-sitization was found on challenge in guinea-pig studies using up to 50% PEG-35 Castor Oil; however, thisingredient was found to be a potent adjuvant in guinea pigs and mice. No evidence of developmental toxicity was seen in mice and rat feeding studies. Theseingredients, tested as vehicle controls, produced no mutagenic or carcinogenic effect. Clinical data are generally negative for irritation and sensitization, although some anaphylactoid reactions have been seen in studies of intravenous drugs in which PEG-35 Castor Oil was used as the vehicle. Because the maximum concentration used in animal sensitization studies was 50% for PEG Castor Oils and 100% for PEG Hydrogenated Castor Oils, it was concluded that PEG Castor Oils are safe for use in cosmetic formulations up to a concentration of 50% and that PEG Hydrogenated Castor Oils are safe as used in cosmetic formulations.

Impacts of ferrate oxidation on natural organic matter and disinfection byproduct precursors

This study investigated the effectiveness of ferrate (Fe(VI)) oxidation in combination with ferric chloride coagulation on the removal of natural organic matter (NOM) and disinfection byproduct (DBP) precursors. Twelve natural waters were collected and four treatment scenarios were tested at bench-scale. Results showed that intermediate-ferrate treatment (i.e., coagulation and particle removal followed by ferrate oxidation) was most effective followed by pre-ferrate treatment (i.e., ferrate oxidation followed by coagulation and particle removal (conventional treatment)) or conventional treatment alone (i.e., no oxidation), and the least effective was ferrate oxidation alone (i.e., no coagulation). At typical doses, direct ferrate oxidation of raw water decreased DBP formation potentials (DBPFPs) by about 30% for trihalomethanes (THMs), 40% for trihaloacetic acids (THAAs), 10% for dihaloacetic acids (DHAAs), 30% for dihaloacetonitriles (DHANs), and 5% for haloketones (HKs). The formation potential of chloropicrin (CP) consistently increased after direct ferrate oxidation. Pre-ferrate followed by conventional treatment was similar to conventional treatment alone for NOM and DBP precursor removal. Ferrate pre-oxidation had positive effects on subsequent coagulation/particle removal for THM and THAA precursor removal and may allow the use of lower coagulant doses due to the Fe(III) introduced by ferrate decomposition. On the other hand, intermediate-ferrate resulted in substantially improved removal of NOM and DBP precursors, which can be attributed to initial removal by coagulation and particle removal, leaving precursors that are particularly susceptible to oxidation by ferrate. The Fe(III) resulting from ferrate decay during intermediate-ferrate process was primarily present as particulate iron and could be effectively removed by filtration.

Multisite carcinogenicity and respiratory toxicity of inhaled 1-bromopropane in rats and mice

Two-year 1-bromopropane (1-BP) inhalation studies were conducted because of the potential for widespread exposure, the lack of chronic toxicity and carcinogenicity data, and the known carcinogenicity of structurally related compounds. Male and female F344/N rats and B6C3F1/N mice were exposed by inhalation to 0, 62.5 (mice only), 125, 250, or 500 (rats only) ppm 1-BP for 6 hr/day, 5 days/week for 105 weeks. Exposure of male and female rats to 1-BP resulted in significantly increased incidences of adenomas of the large intestine and skin neoplasms. In male rats, the incidence of malignant mesothelioma of the epididymis was statistically significantly increased at 500 ppm, but the biological significance of this common lesion is unclear. Incidences of pancreatic islet adenoma in male rats were significantly increased at all concentrations relative to concurrent controls but were within the historical control range for inhalation studies. There was no evidence of carcinogenic activity of 1-BP in male B6C3F1 mice; however, significantly increased incidences of alveolar/bronchiolar neoplasms of the lung were present in female mice. Exposure to 1-BP also resulted in increased incidences of nonneoplastic lesions in the nose of rats and mice, the larynx of rats and male mice, the trachea of female rats and male and female mice, and the lungs of mice. Inflammatory lesions with Splendore Hoeppli (S-H) material were present primarily in the nose and skin of exposed male and female rats, indicating that 1-BP caused immunosuppression.

Sodium dichloroacetate (DCA) reduces apoptosis in colorectal tumor hypoxia

We examined the effect of hypoxia on apoptosis of human colorectal cancer (CRC) cells in vitro and in vivo. All cell lines tested were susceptible to hypoxia-induced apoptosis. DCA treatment caused significant apoptosis under normoxia in SW480 and Caco-2 cells, but these cells displayed decreased apoptosis when treated with DCA combined with hypoxia, possibly through HIF-1alpha dependent pathways. DCA treatment also induced significantly increased growth of SW480 tumor xenografts, and a decrease in TUNEL positive nuclei in hypoxic but not normoxic regions of treated tumors. Thus DCA is cytoprotective to some CRC cells under hypoxic conditions, highlighting the need for further investigation before DCA can be used as a reliable apoptosis-inducing agent in cancer therapy.

Determinants of whether or not mixtures of disinfection by-products are similar

Reactive chemicals have been used to disinfect drinking waters for over a century. In the 1970s, it was first observed that the reaction of these chemicals with the natural organic matter (NOM) in source waters results in the production of variable, complex mixtures of disinfection by-products (DBP). Because limited toxicological and epidemiological data are available to assess potential human health risks from complex DBP mixture exposures, methods are needed to determine when health effects data on a specific DBP mixture may be used as a surrogate for evaluating another environmental DBP mixture of interest. Before risk assessors attempt such efforts, a set of criteria needs to be in place to determine whether two or more DBP mixtures are similar in composition and toxicological potential. This study broadly characterizes the chemical and toxicological measures that may be used to evaluate similarities among DBP mixtures. Variables are discussed that affect qualitative and quantitative shifts in the types of DBP that are formed, including disinfectants used, their reactions with NOM and with bromide/iodide, pH, temperature, time, and changes in the water distribution system. The known toxicological activities of DBP mixtures and important single DBPs are also presented in light of their potential for producing similar toxicity. While DBP exposures are associated with a number of health effects, this study focuses on (1) mutagenic activity of DBP mixtures, (2) DBP cancer epidemiology, and (3) toxicology studies to evaluate similarity among DBP mixtures. Data suggest that further chemical characterization of DBP mixtures and more systematic study of DBP toxicology will improve the quality and usefulness of similarity criteria.

Autoxidative Activation of the Nematocide 1,3-Dichloropropene to Highly Genotoxic and Mutagenic Derivatives: Consideration of Genotoxic/Carcinogenic Mechanisms

1,3-Dichloropropene (1,3-DCP) is used as a soil nematocide worldwide. Technical grade 1,3-DCP is genotoxic/mutagenic and carcinogenic. Talcott and King reported that mutagenic activity is lost after purification of 1,3-DCP samples via silica gel column chromatography. We found that mutagenicity and SOS repair in Escherichia coli, strain PM 21, are strongly reduced after purification via silica gel and that mutagenicity and induction of SOS repair depend on oxidative impurities and secondary products. Both isomers (E and Z) of 1,3-DCP are oxidized to 1,3-dichloropropene epoxide (1,3-DCP-Ox). The epoxide is subjected to rapid internal rearrangement to 2,3-dichloropropanal (2,3-DCPA), which spontaneously eliminates HCl and forms the extremely mutagenic, genotoxic, and carcinogenic 2-chloroacrolein (alpha-chloroacrolein) alpha-ClA. Thus, the genotoxic/mutagenic effects of unpurified 1,3-DCP samples mainly depend on alpha-ClA. The underlying genotoxic and mutagenic mechanism is formation of promutagenic exocyclic 1,N(2)-propanodeoxyguanosine adducts of alpha-ClA. Pure 1,3-DCP samples have only a very low S(N)1 reactivity as measured in trifluoroacetic acid solvolysis reactions, hydrolysis, and computed reactivities but possess a moderate S(N)2 reactivity as determined in alkylation tests with the nucleophiles 4-(p-nitrobenzyl)pyridine (NBP) and N-methyl-mercaptoimidazole (MMI). Evidently, the low S(N)1 reactivity is not sufficient to form necessary amounts of O(6)-alkylguanine DNA adducts required for back-mutation in Salmonella typhimurium strain TA1535. The S(N)2 reactivity may, however, lead to other DNA adducts, e.g., N7-guanine adducts, which can induce error prone repair in S. typhimurium strain TA100 and thus lead to back-mutation in this strain. Application of 1,3-DCP samples in agriculture must be considered as a mutagenic risk because the samples can be oxidized and form the extremely mutagenic alpha-ClA. As a consequence, it is questionable whether any stabilizers can prevent oxidation during application.

The influence of the solvents DMSO and ethanol on the genotoxicity of alpha,beta-unsaturated aldehydes in the SOS chromotest

alpha,beta-Unsaturated aldehydes are ubiquitous environmental pollutants, important industrial chemicals, have mani-fold biological functions in plants and insects and are natural products in food. They are endogenously formed in animals and humans during lipid peroxidation and arachidonic acid oxidation and are genotoxic, mutagenic and carcinogenic. Crotonaldehyde and 2-hexenal in food may contribute to general carcinogenicity in humans. The high bacterial toxicity of these compounds leads to problems in genotoxicity testing in bacterial systems. Recently, we have shown that using ethanol as solvent instead of dimethylsulfoxide (DMSO) results in an increase in the induction factors and the SOS-inducing potency of alpha,beta-unsaturated ketones in the SOS chromotest. Here, we demonstrate that utilization of ethanol as solvent also improves the testing of alpha,beta-unsaturated aldehydes. Five aldehydes out of nine tested were clearly positive in the SOS chromotest according to the criteria of Quillardet, i.e. acrolein, crotonaldehyde, 2,4-hexadienal, 2-methylacrolein and 2-ethylacrolein, three further, 2-hexenal, 2-heptenal and 2-propylacrolein showed a dose dependent increase of the induction factors which was however lower than 1.5 times that of the background. Only 2-butylacrolein did not lead to an increase in the induction factors. With DMSO as solvent only the three aldehydes acrolein, crotonaldehyde and 2,4-hexadienal showed an increase in the induction factor, which was however lower than 1.5 that of the background. Utilization of ethanol allows to establish structure genotoxicity relationships for alpha,beta-unsaturated aldehydes in the SOS chromotest. Genotoxicity decreases with increasing degree of substitution. The decreasing genotoxicities can be explained (a) by increasing bacterial toxicity due to increasing lipophilicities of the higher substituted aldehydes and (b) by decreasing reactivity due to steric hindrance by the alkyl substituents.

Acrolein induces activation of the epidermal growth factor receptor of human keratinocytes for cell death

Acrolein, which is a highly reactive formaldehyde generated by lipid peroxidation, can affect skin and cause various disorders. The effect of exposure of human keratinocytes to acrolein on cell surface-oriented signal transduction into cells was examined. Incubation of human keratinocytes with a relatively low concentration (50 microM) of acrolein caused a prompt and selective induction of tyrosine phosphorylation of the epidermal growth factor receptor (EGFR) as a 180-kDa molecule during the period from 5-30 min after the start of incubation. This early event was followed by an increase in the density and number of phosphotyrosine-containing proteins during the period from 60-120 min after the start of incubation. The catalytic activity of EGFR as measured by the levels of autophorphorylation and phosphorylation of an exogenously added substrate, casein, in in vitro kinase assay, greatly increased as early as 1 min after the start of incubation and then decreased gradually 30 min later. MAP family kinases, including ERK, JNK, and p38 kinase, and the potentially downstream transcription factor c-Jun were all promoted for phosphorylation/activation during a period of 5-30 min. Selective prompt phosphorylation/activation of EGFR followed by phosphorylation of MAP family kinases and c-Jun and their blockade by a specific EGFR inhibitor, AG1478, suggested that activation of EGFR is the major, and possibly single, cell surface element for intracellular signal transduction in acrolein-treated cells. Incubation of human keratinocytes with 50 microM of acrolein induced atypical apoptosis with morphologic apoptotic features with low-grade oligonucleoside-sized DNA fragmentation. Partial inhibition of such a cytopathic effect of acrolein on human keratinocytes by preincubation with AG1478 suggests the involvement of an EGFR-mediated signal pathway for atypical apoptosis. These results provide new information on acrolein-induced cell surface-oriented signal transduction to human keratinocytes, and this information may be useful for understanding the pathogenesis of a number of skin diseases in response to environmental acrolein and acrolein-generating ultraviolet irradiation.

Mutagenicity of 2-alkylpropenals in Salmonella typhimurium strain TA 100: structural influences

alpha,beta-Unsaturated aldehydes are a class of mutagenic and carcinogenic compounds that form promutagenic 1,N(2)-propanodeoxyguanosine adducts. They are important industrial and environmental compounds, are formed endogenously, and are found in food. We recently published structure-mutagenicity relationships for 3-alkyl substituted alpha,beta-unsaturated aldehydes (beta-alkylacroleins) and here we present structural influences on the mutagenicity of the 2-alkyl substituted alpha,beta-unsaturated aldehydes (alpha-alkylacroleins), 2-methylacrolein, 2-ethylacrolein, 2-propylacrolein, and 2-butylacrolein, in Salmonella typhimurium TA 100. All four alkylacroleins are mutagenic without S9-mix; however, the results are strongly influenced by bacterial toxicity of the alkylacroleins. In general, toxicity increases with increasing length of the alkyl substituent. The increasing toxicity with increasing alkyl groups can be explained by increasing lipophilicity that allows the compounds to better penetrate into the bacterial cell. Other structural effects, such as steric hindrance of the deoxyguanosine binding (DNA-adduct formation) and the positive inductive effect of the alkyl groups, have only a slight effect on mutagenesis. Addition of S9-mix leads to an increase in the absolute revertant peak values but a decrease in mutagenic activities, as expressed by revertants per micromol. This effect is also observed with heat-inactivated S9-mix and does not depend on metabolic activation. The effect of S9-mix can be explained by partial detoxication of the substances by nucleophilic components of the S9-mix such as glutathione.

The role of alcohols as solvents in the genotoxicity testing of alpha,beta-unsaturated ketones in the SOS chromotest

alpha,beta-Unsaturated ketones are bifunctional compounds which form promutagenic 1,N(2)-propanodeoxyguanosine adducts like carcinogenic alpha,beta-unsaturated aldehydes and are mutagenic and genotoxic like these aldehydes. They are important industrial chemicals, are found in our environment and are widespread in our food. We investigated the SOS repair inducing activities of five ketones in the SOS chromotest and compared these results with that of the Ames test. Alkyl substitution at the beta-position of the alpha, beta-unsaturated carbonyl moiety leads to a decrease or loss in genotoxicity. Genotoxicity is higher if using ethanol as solvent instead of dimethylsulfoxide (DMSO). An increasing effect is also observed with methanol and n-propanol. Addition of the alcohol dehydrogenase inhibitor 4-methylpyrazole does not significantly influence the genotoxicity indicating that it is unlikely that the solvent effect depends on competitive inhibition of alcohol dehydrogenase by the alcohols used as solvents. Since other possible explanations e.g. ketal formation or solubility effects are also unlikely, the mechanism of this solvent effect observed with three different E. coli PQ-strains remains unresolved. No significant difference in genotoxicity of ethyl vinyl ketone was found between the strains PQ 37 and PQ 243 indicating that base excision repair does not play a role in the repair of 1,N(2)-propanodeoxyguanosine adducts, the main adducts of the alpha,beta-unsaturated ketones.

Lack of mammalian mutagenicity of the potent bacterial mutagen tris(2,3-dibromopropyl) phosphate and its metabolite 2-bromoacrolein

The flame retardant tris(2,3-dibromopropyl)phosphate (Tris-BP) and its metabolite 2-bromoacrolein (2BA) are very potent bacterial mutagens in Salmonella typhimurium (S. typhimurium) TA 100. In this study, we showed that 2BA and Tris-BP are also mutagenic in S. typhimurium TA 104, which detects mutations at AT base pairs, while TA 100 detects mutations at CG basepairs. We also studied the mutagenicity of 2BA in mammalian cells in vitro and in the rat in vivo. Firstly, 2BA was tested in the human lymphoblastoid cell line TK6. The results showed that there was no increase in mutation frequency at the hprt locus, whereas there was a large decrease in cell survival. Secondly, a shuttle vector system was used to study the induction of mutations by 2BA:DNA adducts. The vector was modified by insertion of a single-stranded oligonucleotide containing on average one 2BA:DNA adduct. No increase in mutation frequency above background was detected after replication of this vector in SV40 transformed normal human fibroblasts. Because the liver is a major site for bioactivation of Tris-BP to 2BA in vivo, we tested the initiating capacity of Tris-BP in the rat liver in a modified Solt & Farber initiation and promotion system. Administration of Tris-BP resulted in a small increase in the number of preneoplastic gamma-glutamyl-transpeptidase positive (GGT+) foci in the liver compared to control animals (only significant in the lowest size class). Modification of the experimental protocol by performing partial hepatectomy 24 h after the administration of Tris-BP, did not increase the number of GGT+ or glutathione S-transferase-P (GST-P+) positive foci above the control level. Taken together, these results indicate that, in spite of a high mutagenicity in S. typhimurium, 2BA and Tris-BP have low or negligible mutagenic effects in mammalian systems. The lack of mutagenic activity may explain why Tris-BP is not a carcinogen in the rat liver.

Mutagenic and carcinogenic risk of oxygen containing chlorinated C-3 hydrocarbons: putative secondary products of C-3 chlorohydrocarbons and chlorination of water

Oxygen containing C-3 chlorohydrocarbons are secondary products of C-3 chlorohydrocarbons formed during oxidation at air, in the metabolism of pesticides and by chlorination of drinking water. These compounds are mutagenic, genotoxic and carcinogenic. 2-Chloroacroleins are extremely strong mutagens and genotoxins and form 1,N2-cyclic deoxyguanosine adducts. The role of such adducts in mutagenicity and carcinogenicity is discussed.

Genotoxicity of 2-halosubstituted enals and 2-chloroacrylonitrile in the Ames test and the SOS-chromotest

2-Chloroacrolein and 2-bromoacrolein are very potent direct mutagens not requiring metabolic activation in Salmonella typhimurium strains TA 100 and TA 1535. Mutagenic activities decrease with increasing degree of methyl substitution at carbon atom C-3 of the acrolein moiety from 2-chloroacrolein via 2-chlorocrotonaldehyde to 2-chloro-3,3-dimethylacrolein. With 2-chloroacrylonitrile equivocal results are obtained in strain TA 100 without S9-mix and unequivocal with S9-mix. In the SOS-chromotest the 2-chloroenals are also very strong genotoxins and the structure-activity relationships found in the Ames test are clearly confirmed. 2-Chloroacrylonitrile is not positive in the SOS-chromotest. The mutagenic mechanisms are discussed, and indications are provided that genotoxicity/mutagenicity depends on formation of DNA adducts, e.g., 1,N2-cyclic deoxyguanosine adducts.

1,N2-cyclic deoxyguanosine adducts and guanine adducts of 2-haloacroleins. Isolation, characterization, isomerization and stability

The reaction of the mutagenic 2-haloacroleins, 2-fluoroacrolein, -2-chloroacrolein and 2-bromoacrolein, with nucleosides and 5'-mononucleotides was studied. We found two different regioisomers of 1,N2-cyclic deoxyguanosine adducts of 2-chloroacrolein and 2-bromoacrolein: type A, the 6-hydroxy, 7-haloadduct in which the OH-substituent is vicinal to the N2-atom of the guanine moiety and type B, the 8-hydroxy, 7-haloadduct in which the OH-group is adjacent to the N1-atom of the guanine moiety. The major adducts were the trans pairs of diastereomers of type A and type B in which the 6,7-substituents as well as the 7,8-substituents are in the energetically favoured diaxial position of the newly formed tetrahydropyrimidine ring. In the case of the type A regioisomers, the cis pairs of diastereomers (traces with chloroacrolein and about 4% with bromoacrolein) were also found in which the halosubstituent probably takes the equatorial position. Due to the anomeric effect, the OH-group takes the axial position in both regioisomers. No cis isomers of the type B regioisomers could be isolated. Acid hydrolysis of the deoxyguanosine adducts released deoxyribose, and the respective guanine adducts were isolated and characterized. Besides the vicinal halo, hydroxy adducts, trace amounts of the corresponding dihydroxy adducts were formed by hydrolysis of the chlorine or bromine substituents. The dihydroxy compounds possess the same structures and conformations in the newly formed tetrahydropyrimidine ring as do the halo, hydroxy adducts. Under our conditions no adducts other than those with deoxyguanosine and guanine could be identified.(ABSTRACT TRUNCATED AT 250 WORDS)

The possible role of alpha, beta-unsaturated carbonyl compounds in mutagenesis and carcinogenesis

alpha, beta-Unsaturated carbonyl compounds are industrially important compounds, ubiquitous in the environment and are formed endogenously. They interact with proteins and enzymes. Genotoxicity was found in eucaryotic cells and some compounds were carcinogenic. Unsaturated carbonyl compounds are considered to play an important role in human cancer. Insufficient and contradictory results were reported on mutagenicity. We demonstrated a clear mutagenic potential for these compounds and have shown interference of their bacterial toxicity with an adequate testing. Structure-mutagenicity relationships were confirmed by the results of the SOS-chromotest. The compounds induce DNA-strand breaks. However, we did not find indications for cross linking. With mutagenic alpha, beta-unsaturated carbonyl compounds we isolated and characterized 1,N2-cyclic deoxyguanosine adducts, 7,8-cyclic and 7-linear guanine adducts as well as 1,N2-7,8-biscyclic adducts and 1,N2-cyclic, 7-linear bisadducts. Reactivity of these compounds towards nucleosides runs in parallel with their mutagenic potential. Mutagenic and carcinogenic activities most probably depend on these reactions with DNA, and DNA adducts can be utilized as indicators for the role of these compounds in human carcinogenicity.

Degradation of 2-chloroallylalcohol by a Pseudomonas sp

Three Pseudomonas strains capable of utilizing 2-chloroallylalcohol (2-chloropropenol) as the sole carbon source for growth were isolated from soil. The fastest growth was observed with strain JD2, with a generation time of 3.6 h. Degradation of 2-chloroallylalcohol was accompanied by complete dehalogenation. Chloroallylalcohols that did not support growth were dechlorinated by resting cells; the dechlorination level was highest if an alpha-chlorine substituent was present. Crude extracts of strain JD2 contained inducible alcohol dehydrogenase activity that oxidized mono- and dichloroallylalcohols but not trichloroallylalcohol. The enzyme used phenazine methosulfate as an artificial electron acceptor. Further oxidation yielded 2-chloroacrylic acid. The organism also produced hydrolytic dehalogenases converting 2-chloroacetic acid and 2-chloropropionic acid.

In vitro metabolism and bioactivation of 1,2,3-trichloropropane

In vitro studies using rat and human hepatic microsomes have shown that the halogenated hydrocarbon 1,2,3-trichloropropane (TCP) is bioactivated to the direct acting mutagen 1,3-dichloroacetone (DCA). The presence of DCA in microsomal incubations was confirmed by gas chromatography-mass spectrometry. DCA formation was totally dependent on the presence of NADPH. The rate of DCA formation using rat and human microsomes was 0.268 +/- 0.029 and 0.026 +/- 0.006 nmol/min/mg protein +/- SE, respectively. When hepatic microsomes were isolated from rats pretreated with the cytochrome P-450 inducers, phenobarbital, and dexamethasone, 24- and 2.5-fold increases, respectively, in the rate of DCA production, were observed. Pretreatment with beta-naphthoflavone resulted in a 50% inhibition in DCA formation. The inhibitors of cytochromes P-450, SKF 525-A and 1-aminobenzotriazol, produced 85 and 70% inhibitions of DCA formation, respectively. When alcohol dehydrogenase and NADH were added to microsomal incubations, two TCP-related alcohols, 1,3-dichloro-2-propanol and 2,3-dichloropropanol, were formed. These alcohols are products of the initial microsomal metabolites, DCA and 2,3-dichloropropanal. [14C]TCP equivalents bound covalently to rat hepatic microsomal protein. This binding was increased 8-fold when hepatic microsomes from phenobarbital pretreated rats were used. The addition of either glutathione or N-acetylcysteine to the incubations completely inhibited this binding. In the presence of N-acetylcysteine, 1,3-(2-propanone)-bis-S-(N-acetylcysteine) (PDM) was the only N-acetylcysteine conjugate detected. It represented 87% of TCP microsomal metabolism. The formation of PDM implicates DCA as the major microsomal protein-binding metabolite of TCP. The formation of DCA, a direct-acting mutagen, may be responsible for the mutagenicity of TCP in systems using rat hepatic microsomes. Its role in the tumorigenicity and carcinogenicity of TCP remains to be established.

Mutagenicity of 2-methylacrolein, 2-ethylacrolein and 2-propylacrolein in Salmonella typhimurium TA100. A comparative study

The C2-alkylated acrolein derivatives 2-methylacrolein, 2-ethylacrolein and 2-propylacrolein are mutagenic in Salmonella typhimurium TA100. They are direct mutagens, their mutagenic potency being inversely proportional to the size of the alkylating substituent in the C2 position. In the presence of S9 mix, the mutagenicity of all these substances is considerably reduced; the reduction in mutagenicity is inversely proportional to the direct mutagenic potential of the substance. As shown for 2-methylacrolein, the reduction in mutagenicity is dependent on the concentration of S9 in the S9 mix and is not significantly influenced by heat inactivation of the S9 mix or by addition of TCPO, an inhibitor of epoxide hydrolase, to the testing system. There are no indications of enzymatic activation by the metabolizing microsomal system.