Your search keyword '"Yu TW"' showing total 8 results

1. Heterogeneous reactions of particulate matter-bound PAHs and NPAHs with NO3/N2O5, OH radicals, and O3 under simulated long-range atmospheric transport conditions: reactivity and mutagenicity.

Author

Jariyasopit N, Zimmermann K, Schrlau J, Arey J, Atkinson R, Yu TW, Dashwood RH, Tao S, and Simonich SL

Subjects

Atmosphere chemistry, California, China, Fluorenes chemistry, Mutagenicity Tests, Pyrenes chemistry, Hydroxyl Radical chemistry, Mutagens chemistry, Nitrates chemistry, Nitrogen Oxides chemistry, Ozone chemistry, Particulate Matter chemistry, Polycyclic Aromatic Hydrocarbons chemistry

Abstract

The heterogeneous reactions of ambient particulate matter (PM)-bound polycyclic aromatic hydrocarbons (PAHs) and nitro-PAHs (NPAHs) with NO3/N2O5, OH radicals, and O3 were studied in a laboratory photochemical chamber. Ambient PM2.5 and PM10 samples were collected from Beijing, China, and Riverside, California, and exposed under simulated atmospheric long-range transport conditions for O3 and OH and NO3 radicals. Changes in the masses of 23 PAHs and 20 NPAHs, as well as the direct and indirect-acting mutagenicity of the PM (determined using the Salmonella mutagenicity assay with TA98 strain), were measured prior to and after exposure to NO3/N2O5, OH radicals, and O3. In general, O3 exposure resulted in the highest relative degradation of PM-bound PAHs with more than four rings (benzo[a]pyrene was degraded equally well by O3 and NO3/N2O5). However, NPAHs were most effectively formed during the Beijing PM exposure to NO3/N2O5. In ambient air, 2-nitrofluoranthene (2-NF) is formed from the gas-phase NO3 radical- and OH radical-initiated reactions of fluoranthene, and 2-nitropyrene (2-NP) is formed from the gas-phase OH radical-initiated reaction of pyrene. There was no formation of 2-NF or 2-NP in any of the heterogeneous exposures, suggesting that gas-phase formation of NPAHs did not play an important role during chamber exposures. Exposure of Beijing PM to NO3/N2O5 resulted in an increase in direct-acting mutagenic activity which was associated with the formation of mutagenic NPAHs. No NPAH formation was observed in any of the exposures of the Riverside PM. This was likely due to the accumulation of atmospheric degradation products from gas-phase reactions of volatile species onto the surface of PM collected in Riverside prior to exposure in the chamber, thus decreasing the availability of PAHs for reaction.

Published

2014

2. Novel nitro-PAH formation from heterogeneous reactions of PAHs with NO2, NO3/N2O5, and OH radicals: prediction, laboratory studies, and mutagenicity.

Author

Jariyasopit N, McIntosh M, Zimmermann K, Arey J, Atkinson R, Cheong PH, Carter RG, Yu TW, Dashwood RH, and Massey Simonich SL

Subjects

Mutagens toxicity, Polycyclic Aromatic Hydrocarbons toxicity, Salmonella typhimurium drug effects, Salmonella typhimurium genetics, Mutagens chemistry, Nitrogen Oxides chemistry, Polycyclic Aromatic Hydrocarbons chemistry

Abstract

The heterogeneous reactions of benzo[a]pyrene-d12 (BaP-d12), benzo[k]fluoranthene-d12 (BkF-d12), benzo[ghi]perylene-d12 (BghiP-d12), dibenzo[a,i]pyrene-d14 (DaiP-d14), and dibenzo[a,l]pyrene (DalP) with NO2, NO3/N2O5, and OH radicals were investigated at room temperature and atmospheric pressure in an indoor Teflon chamber and novel mono-NO2-DaiP and mono-NO2-DalP products were identified. Quartz fiber filters (QFF) were used as a reaction surface and the filter extracts were analyzed by GC/MS for nitrated-PAHs (NPAHs) and tested in the Salmonella mutagenicity assay, using Salmonella typhimurium strain TA98 (with and without metabolic activation). In parallel to the laboratory experiments, a theoretical study was conducted to rationalize the formation of NPAH isomers based on the thermodynamic stability of OH-PAH intermediates, formed from OH-radical-initiated reactions. NO2 and NO3/N2O5 were effective oxidizing agents in transforming PAHs to NPAHs, with BaP-d12 being the most readily nitrated. Reaction of BaP-d12, BkF-d12, and BghiP-d12 with NO2 and NO3/N2O5 resulted in the formation of more than one mononitro isomer product, while the reaction of DaiP-d14 and DalP resulted in the formation of only one mononitro isomer product. The direct-acting mutagenicity increased the most after NO3/N2O5 exposure, particularly for BkF-d12 in which di-NO2-BkF-d10 isomers were measured. The deuterium isotope effect study suggested that substitution of deuterium for hydrogen lowered both the direct and indirect acting mutagenicity of NPAHs and may result in an underestimation of the mutagencity of the novel NPAHs identified in this study.

Published

2014

3. Aflatoxin exposure and DNA damage in the comet assay in individuals from the Gambia, West Africa.

Author

Anderson D, Yu TW, Hambly RJ, Mendy M, and Wild CP

Subjects

Adolescent, Adult, Aged, Female, Gambia, Humans, Male, Middle Aged, Smoking, Aflatoxins adverse effects, Aflatoxins pharmacology, DNA Damage, Mutagenicity Tests, Mutagens adverse effects, Mutagens pharmacology

Abstract

The single cell gel electrophoresis assay (Comet assay) was used to measure DNA damage in peripheral lymphocytes from a group of individuals from The Gambia in order to determine whether such damage could be associated with increased exposure to aflatoxin in this population. Responses obtained were correlated to responses previously obtained [1] in a cross-sectional study in the same individuals of various cytogenetic alterations [chromosomal aberrations, micronuclei (crest positive and negative staining), and sister chromatid exchanges], and aflatoxin-albumin adducts. Analysis of variance methods were used to assess the effects of smoking, GSTM1 genotype, sex, age, and smoking status. A comparison was also made between The Gambian individuals and a group of healthy, non-smoking volunteers in the United Kingdom where aflatoxin exposure would be expected to be low. From the earlier study [1], it was determined that the levels of the sister chromatid exchanges and micronuclei were higher in The Gambian group than in a European group where aflatoxin exposure was lower, but that there were no correlations between the adduct levels and the cytogenetic abnormalities at the individual level. In the present study, DNA damage as measured in the Comet assay was not significantly higher than in the healthy United Kingdom volunteers. In addition, there were no associations between cytogenetic damage, GSTM1 genotype, age, sex, lifestyle factors (smoking and aflatoxin exposure), and Comet response at the individual level. Comet response was higher in females than males in The Gambia if one outlier was excluded from analysis and not taking into account other sources of variability. It would appear that DNA damage as measured in the Comet assay in peripheral blood lymphocytes is not a sensitive genotoxic marker of aflatoxin exposure in this population.

Published

1999

4. Flavonoids modulate comet assay responses to food mutagens in human lymphocytes and sperm.

Author

Anderson D, Dobrzyńska MM, Başaran N, Başaran A, and Yu TW

Subjects

Adult, Carbolines toxicity, Electrophoresis methods, Female, Humans, Male, Middle Aged, Quinolines toxicity, Antimutagenic Agents pharmacology, Flavonoids pharmacology, Lymphocytes drug effects, Mutagens toxicity, Spermatozoa drug effects

Abstract

The flavonoids, silymarin, myricetin, quercitin, kaempferol, rutin and kaempferol-3-rutinoside have been examined in combination with the food mutagens, 3-amino-1-methyl-5H-pyrido (4,3-b)indole (Trp-P-2) and 2-amino-3-methylimidazo-(4,5-f) quinoline (IQ), in the Comet assay in human lymphocytes from donor A and human sperm from donor B. These compounds alone have been shown to produce positive responses in the Comet assay, as have the food mutagens. However, in combination with the food mutagens, the flavonoids produced antigenotoxic effects since DNA damage was reduced in the Comet assay in lymphocytes and sperm. The assays were performed in the absence of metabolic activation, since when quercetin and kaempferol were examined in blood with metabolic activation, there was little or no difference in response to that obtained in its absence. In the blood, there was an exacerbation or synergy of response at the lowest doses of the flavonoids. In the sperm, with silymarin, myricetin and quercitin, antigenotoxic effects only were observed, but with kaempferol, in general, there were no protective effects. The food mutagen, 2-amino-1-methyl-6-phenylimadazo (4,5-b)pyridine (PhIP), was also examined in addition to Trp-P-2 and IQ in combination with silymarin and myricetin in donors A and C in human lymphocytes only. Similar exacerbation of effects were found at low doses of these flavonoids with antigenotoxic effects at high doses. This was confirmed in the Ames test. There were slightly different profiles in lymphocytes and sperm, but antigenotoxic effects were observed over a similar dose range. This would suggest that effects occur in somatic and germ cells on a one-to-one ratio. These results have implications for man in terms of risk assessment and in the modulation of isolated food constituents., (Copyright 1998 Elsevier Science B.V. All rights reserved.)

Published

1998

5. Modulating effects of flavonoids on food mutagens in human blood and sperm samples in the comet assay.

Author

Anderson D, Basaran N, Dobrzyńska MM, Basaran AA, and Yu TW

Subjects

Adult, Drug Interactions, Female, Humans, Male, Mutagenicity Tests, Plant Extracts, Flavonoids pharmacology, Food Contamination, Lymphocytes drug effects, Mutagens toxicity, Spermatozoa drug effects

Abstract

The flavonoids silymarin, myricetin, quercetin, kaempferol, rutin, and kaempferol-3-rutinoside have been examined in combination with the food mutagens 3-amino-1-methyl-5H-pyrido (4,3-b)indole (Trp) and 2-amino-3-methylimidazo-4,5-f)quinoline (IQ) in the Comet assay in human lymphocytes from donors A and B and human sperm from donor B. These compounds alone have been shown to produce positive responses in the Comet assay, as have the food mutagens. However, in combination with the food mutagens, the flavonoids produced antigenotoxic effects since DNA damage was reduced in the Comet assay in human lymphocytes and sperm over a similar dose range in the absence of metabolic activation. Only quercetin and kaempferol were examined in blood with metabolic activation, but there was no difference in response to that obtained without activation. In the blood there was an exacerbation or synergy of response at the lowest doses of the flavonoids. In the sperm this was also the case with silymarin and myricetin. With kaempferol there was no antigenotoxic effect and quercetin protected below baseline levels. Since the effects were observed in lymphocytes and sperm over a similar dose range, it would suggest that the Comet assay responses occur in somatic and germ cells in a one-to-one ratio. These results have implications for man in terms of risk assessment and in the modulation of isolated food constituents.

Published

1997

6. An investigation of bone marrow and testicular cells in vivo using the comet assay.

Author

Anderson D, Dhawan A, Yu TW, and Plewa MJ

Subjects

Animals, Bleomycin toxicity, Bone Marrow Cells, Cyclophosphamide toxicity, DNA Damage, Ethyl Methanesulfonate toxicity, Ethylene Glycols toxicity, Male, Mutagenicity Tests, Rats, Rats, Sprague-Dawley, Testis cytology, Bone Marrow drug effects, Mutagens toxicity, Testis drug effects

Abstract

The effects of the mutagens, cyclophosphamide (CP), ethyl methanesulphonate (EMS), bleomycin (BLM) and the testicular toxin ethylene glycol monomethyl ether (EGME) in bone marrow and testicular cells have been compared in the alkaline COMET assay. Sprague-Dawley rats were administered by gavage with 50, 100 and 150 mg/kg body weight (bw) of CP; 100, 200 and 300 mg/kg bw EMS; 50, 100 and 150 mg/kg bw BLM and 500, 1000 and 1500 mg/kg bw EGME. Effects were examined at week 2 after treatment for CP, EMS BLM and EGME and at weeks 5 and 6 for EGME. Bone marrow cells were removed and separated by aspiration of the femur and testicular cells by decapsulation of the testis, treating with collagenase followed by trypsin. Various statistical methods were used to analyse the data. For CP there was an increase in damage above control values for bone marrow at 50 mg/kg bw which decreased at 100 mg/kg bw, and there was mortality of the animals at 150 mg/kg bw. A similar response was found in the testicular cells. For EMS and BLM, there were only occasional slight increases in damage in bone marrow and testicular cells. Two studies were conducted with EGME. In the first, where effects were examined at week 2 after treatment, there was an increase in damage in bone marrow cells, but a larger response was observed in testicular cells. In the second study where effects were examined at weeks 5 and 6 after treatment, bone marrow and testicular cells were not affected. The overall results showed that damage persisted for 2 weeks after treatment with CP and EGME but not in weeks 5 and 6 for EGME. Various statistical methods were used to analyse the data. Statistically significant responses were produced after treatment with CP and EGME and were dose-related for EGME, but after treatment with EMS and BLM statistical increases were sporadic. These results suggest that the assay is useful for measuring DNA damage and its persistence, and for comparing the sensitivity of different target organs in vivo.

Published

1996

7. An investigation of the DNA-damaging ability of benzene and its metabolites in human lymphocytes, using the comet assay.

Author

Anderson D, Yu TW, and Schmezer P

Subjects

Adult, Animals, Benzene metabolism, Biotransformation, Catalase pharmacology, Cell Cycle, Cells, Cultured, Humans, Hydrogen Peroxide pharmacology, Lymphocytes metabolism, Lymphocytes pathology, Male, Microsomes, Liver metabolism, Rats, Benzene toxicity, Benzene Derivatives toxicity, DNA Damage, Lymphocytes drug effects, Mutagens toxicity

Abstract

Benzene and five of its known metabolites--muconic acid, hydroquinone, catechol, p-benzoquinone, and benzentriol--were examined for DNA damage in human lymphocytes using the alkaline Comet assay, and conditions were optimised to determine responses. Metabolic activation (S-9 mix) was included in the assay for varying times to try to enhance effects. In addition, the effects of catalase were investigated as it is known to be present in S-9 mix reducing oxidative damage, and some benzene metabolites are known to react through oxygen radical mechanisms. Effects were also examined in cycling cells to determine whether they were more sensitive to damage then noncycling cells. Comets were measured either by eye or by image analysis. Data have been presented according to length of treatments. When Comets were measured by eye after treatment with hydrogen peroxide (H2O2), the positive control, and each compound for 0.5 hr, only H2O2 and benzenetriol induced pronounced DNA damage without metabolic activation. The effect of catechol was moderate compared with that of benzenetriol. There was a very weak effect of benzene in the absence of rat liver S-9 mix. In the presence of S-9 mix, benzene was not activated. The effect of benzenetriol was greatly reduced by the external metabolising system, but p-benzoquinone became activated to some extent. Catalase abolished the effect of benzenetriol, suggesting that H2O2 formed during autoxidation may be responsible for the DNA-damaging ability of this metabolite. The presence of catalase in S-9 mix may explain the detoxification of benzenetriol and the failure to detect consistent benzene responses. Mitogen-stimulated cycling cells were less sensitive to H2O2 and benzenetriol than unstimulated G0 lymphocytes. When comets were measured by image analysis, a 0.5-hr treatment with H2O2 and benzenetriol and catechol confirmed results analysed by eye, with S-9 mix greatly reducing responses. When treatments were increased to 1 hr in the presence and absence of S-9 mix, benzene at a 5-fold increased dose produced a significant positive response but not at the lower dose. When treatment times were increased to 2 and 4 hr, doses were also increased, and muconic acid, hydroquinone, catechol, and benzoquinone in the presence of S-9 mix showed positive time and dose-related responses, and at the highest dose of benzoquinone the morphology of the nucleus was affected. Effects tended to become more pronounced at high doses and after longer exposures, although this was not always consistent from experiment to experiment. In conclusion, benzene and all metabolites investigated gave positive responses. Where altered responses were observed, they were significantly different from the corresponding controls.

Published

1995

8. Genotoxicity of m-phenylenediamine and 2-aminofluorene in Salmonella typhimurium and human lymphocytes with and without plant activation.

Author

Plewa MJ, Wagner ED, Yu TW, and Anderson D

Subjects

Adult, Cell Survival drug effects, DNA Damage drug effects, DNA Damage genetics, Female, Humans, Mutagenicity Tests, Mutation drug effects, Mutation genetics, Plant Extracts pharmacology, Plants, Toxic, Salmonella typhimurium genetics, Nicotiana cytology, Nicotiana metabolism, Fluorenes toxicity, Lymphocytes drug effects, Mutagens toxicity, Phenylenediamines toxicity, Salmonella typhimurium drug effects

Abstract

The promutagenic arylamines, m-phenylenediamine (mPDA) and 2-aminofluorene (2-AF), were evaluated for their genotoxicity in Salmonella typhimurium strain YG1024 and in human lymphocytes. These agents were assayed with and without TX1MX plant activation mix. Both arylamines without activation were refractory in S. typhimurium, demonstrating that plant activation was required for the generation of their ultimate mutagenic metabolites. However, using the alkaline single-cell gel/Comet assay, both mPDA and 2-AF directly induced DNA damage in human lymphocytes. This effect was reduced when the human cells were treated with the arylamine plus TX1MX. mPDA with or without plant activation was not toxic to the exposed cells. However, at concentrations over 80 microM, 2-AF was toxic to lymphocytes. This toxic response was eliminated by incubation with TX1MX. mPDA and 2-AF were plant-activated into mutagens for S. typhimurium. However, these plant-activated products had a reduced genotoxic potency in human lymphocytes.

Published

1995