Cigarette smoke-induced DNA adducts in the respiratory and nonrespiratory tissues of rats

Formation of DNA adducts is regarded as an essential initial step in the process of chemical carcinogenesis. To determine how chronic exposure to cigarette smoke affects the distribution of DNA adducts in selected respiratory and nonrespiratory tissues, we exposed male Sprague-Dawley rats daily to fresh mainstream smoke from the University of Kentucky reference cigarettes (2R1) in a nose-only exposure system for 32 weeks. Blood carboxyhemoglobin, total particulate matter (TPM) intake, and pulmonary aryl hydrocarbon hydroxylase values indicated effective exposure of animals to cigarette smoke. DNA was extracted from three respiratory (larynx, trachea, and lung) and three nonrespiratory (liver, heart, and bladder) tissues and analyzed for DNA adducts by the 32P-postlabeling assay under conditions capable of detecting low levels of diverse aromatic/hydrophobic adducts. Data showed that the total DNA adducts in the lung, heart, trachea, and larynx were increased by 10- to 20-fold in the smoke-exposed group. Five-fold increase was observed in the bladder tissue, but differences were not present in the liver DNA of control and smoke-exposed groups. These data suggest selective formation of DNA adducts in the tissues.     

Smoke from traditional commercial, harm reduction and research brand cigarettes impairs oviductal functioning in hamsters (Mesocricetus auratus) in vitro

BACKGROUND: Cigarette smoke from 2R1 research brand cigarettes and specific toxicants in smoke inhibit oviductal functioning. Our purpose was to test the hypothesis that smoke from commercial cigarettes, including harm reduction cigarettes, inhibits oviductal functioning and to measure the concentration of previously identified toxicants in smoke from research and commercial cigarettes. METHODS: Mainstream (MS) and sidestream (SS) smoke solutions from two research, six traditional commercial and three harm reduction brands were tested in vitro using an oviductal assay that measures ciliary beat frequency, oocyte retrieval rate and smooth muscle contraction. RESULTS: Generally, smoke from each brand of cigarette was inhibitory in the three oviductal bioassays. SS, the major component of environmental tobacco smoke, was usually more inhibitory than MS, the smoke inhaled by active smokers. Nine cigarette toxicants, previously shown to be highly inhibitory in the oviductal bioassays, were quantified in MS and SS. 4-Methylpyridine, which was inhibitory by itself in picomolar doses, was present in the highest concentration in MS and SS solutions from all brands tested. In general, toxicant concentrations were higher in SS than in MS solutions. CONCLUSIONS: These data show that commercial brands of cigarettes, including harm reduction cigarettes, contain toxicants that inhibit biological processes in the oviduct and could affect reproductive outcomes.     

DNA adduct formation in mice following dermal application of smoke condensates from cigarettes that burn or heat tobacco.

A prototype cigarette that heats tobacco (test cigarette), developed by R.J. Reynolds Tobacco Company, has yielded consistently negative results in several in vivo and in vitro genetic toxicology tests. The objective of the present study was to evaluate the potential of cigarette smoke condensate (CSC) from the test cigarette to induce DNA adducts in mouse tissues and compare the results with those obtained with CSC from a reference tobacco-burning cigarette (1R4F). CD-1 mice were skin-painted with CSC from reference and test cigarettes three times a week for 4 weeks. The highest mass of CSC applied was 180 mg "tar" per week per animal for both reference and test cigarette. DNA adducts were analyzed in skin and lung tissues using the 32P-postlabeling method with the P1 nuclease modification. Distinct diagonal radioactive zones (DRZ) were observed in the DNA from both skin and lung tissues of animals dosed with reference CSC, whereas no corresponding DRZ were observed from the DNA of animals dosed with either test CSC or acetone (solvent control). The relative adduct labeling (RAL) values of skin and lung DNA from reference CSC-treated animals were significantly greater than those of the test CSC-treated animals. The RAL values of the test CSC-treated animals were no greater than those of solvent controls. The negative results in DNA adduct assays with test CSC are consistent with all previous results of in vivo and in vitro genetic toxicology testing on this cigarette and provide additional evidence that smoke condensate from the test cigarette is not genotoxic.     

The effect of tobacco smoking on the frequency of sister chromatid exchanges in human lymphocyte chromosomes

The incidence of sister chromatid exchange (SCE) was investigated in the lymphocyte chromosomes of 24 bidi smokers, 18 cigarette smokers, and 20 normal nonsmoking controls. Bidi and cigarette smokers had a mean SCE per cell of 10.12 +/- 2.41 and 8.15 +/- 1.62, respectively, which were significantly higher than the mean value of 5.48 +/- 1.29 found in controls. Higher frequencies of SCE were also observed in individuals who smoked more than ten bidis or cigarettes per day, compared with people who smoked less than ten bidis or cigarettes per day, respectively. Individuals who smoked bidis or cigarettes for more than 10 years also showed an increased frequency of SCE as compared with those who smoked bidis or cigarettes for less than 10 years.     

Comparative study of DNA adduct formation in mice following inhalation of smoke from cigarettes that burn or primarily heat tobacco

The genotoxic potential of mainstream smoke from a test cigarette (TOB-HT) that primarily heats tobacco and a representative tobacco-burning cigarette (Kentucky reference 1R4F) was compared in male B6C3/F1 mice after nose-only inhalation exposure. Mice were exposed 1 hr per day, 5 days/week for a 4 week period to mainstream smoke at concentrations of 0, 0.16, 0.32, and 0.64 mg total particulate matter/liter of air. Micronuclei formation in bone marrow and peripheral blood polychromatic erythrocytes (PCE) of animals exposed to either the TOB-HT or 1R4F cigarette was not significantly different compared with control animals exposed nose-only to filtered and humidified air (sham controls). DNA adduct measurement by the ³²P-postlabeling method indicated an exposure-dependent increase in lung adducts of animals exposed to 1R4F cigarette smoke at all three concentrations with the mid and high exposure groups exhibitingstatistically significant increases (P < 0.05) in adduct formation compared to sham-exposed animals. The concentration of DNA adducts in the lungs of animals exposed to the TOB-HT cigarette was not significantly increased (P < 0.05) at any concentration compared to sham-exposed controls. A statistically significant (P < 0.05) concentration-dependent formation of DNA adducts was also observed in the heart tissues of animals exposed to smoke from the 1R4F cigarette at all three concentrations, but no significant increase in adduct formation was observed in heart DNA of the animals exposed to the TOB-HT cigarette (P < 0.05). Under the conditions of this experiment, the mainstream smoke from the TOB-HT cigarette was demonstrated to be less genotoxic in mice than mainstream smoke from the 1R4F cigarette, which is representative of cigarettes in the current U.S. market. Environ. Mol. Mutagen. 29:303-311, 1997 © 1997 Wiley-Liss, Inc.     

Comparative tumor promotion assessment of e‐cigarette and cigarettes using the in vitro Bhas 42 cell transformation assay

In vitro cell transformation assays (CTA) are used to assess the carcinogenic potential of chemicals and complex mixtures and can detect nongenotoxic as well as genotoxic carcinogens. The Bhas 42 CTA has been developed with both initiation and promotion protocols to distinguish between these two carcinogen classes. Cigarette smoke is known to be carcinogenic and is positive in in vitro genotoxicity assays. Cigarette smoke also contains nongenotoxic carcinogens and is a tumour promoter and cocarcinogen in vivo. We have combined a suite of in vitro assays to compare the relative biological effects of new categories of tobacco and nicotine products with traditional cigarettes. The Bhas promotion assay has been included in this test battery to provide an in vitro surrogate for detecting tumor promoters. The activity of an electronic cigarette (e‐cigarette; Vype ePen) was compared to that of a reference cigarette (3R4F) in the promotion assay, using total particulate matter (TPM)/aerosol collected matter (ACM) and aqueous extracts (AqE) of product aerosol emissions. 3R4F TPM was positive in this assay at concentrations ≥6 µg/mL, while e‐cigarette ACM did not have any promoter activity. AqE was found to be a lesssuitable test matrix in this assay due to high cytotoxicity. This is the first study to use the Bhas assay to compare tobacco and nicotine products and demonstrates the potential for its future application as part of a product assessment framework. These data add to growing evidence suggesting that e‐cigarettes may provide a safer alternative to traditional cigarettes. Environ. Mol. Mutagen. 58:190–198, 2017. © 2017 The Authors. Environmental and Molecular Mutagenesis Published by Wiley Periodicals, Inc.     

Comparative studies on the genotoxic activity of mainstream smoke condensate from cigarettes which burn or only heat tobacco

The in vitro genotoxic activity of mainstream cigarette smoke condensate (CSC) from cigarettes which heat but do not burn tobacco was compared to that of CSC from cigarettes which burn tobacco. CSCs from five cigarettes were compared. Three of the cigarettes [the Kentucky reference research cigarette (1R4F), a commercially available ultra-low tar brand (ULT) and a commercially available ultra-low tar menthol brand (ULT-menthol]) burn tobacco while two of the cigarettes [a regular (TEST) and a menthol (TEST-menthol]) heat tobacco. CSC from all cigarettes were collected by identical standard techniques, which involved collecting mainstream smoke particulate matter on Cambridge filter pads under FTC smoking conditions. The pads were extracted with DMSO, and the CSCs obtained [10 mg total particulate matter (TPM)/ml DMSO] were evaluated at identical concentrations in an in vitro genetic toxicology test battery. CSCs from 1R4F, ULT, and ULT-menthol cigarettes were mutagenic in Ames bacterial strains TA98, TA100, TA1537, and TA1538 in the presence of metabolic activation (S9 from Aroclor-induced rat liver) but negative in strain TA1535. In the absence of metabolic activation, 1R4F, ULT, and ULT-menthol CSCs were not mutagenic except for a weak response in strain TA1537 for the 1R4F and ULT CSCs. TEST and TEST-menthol CSCs were nonmutagenic in all five bacterial strains, both with and without metabolic activation. CSCs from 1R4F, ULT, and ULT-menthol cigarettes were positive in the CHO-chromosomal aberration assay and in the CHO--sister chromatid exchange assay both with and without metabolic activation while TEST and TEST-menthol CSCs were negative in both assays, either with or without metabolic activation. CSCs from 1R4F, ULT, and ULT-menthol cigarettes were weakly positive in inducing DNA repair in cultured rat hepatocytes while TEST and TEST-menthol CSCs were negative in this assay. All five CSCs were nonmutagenic in the CHO-HGPRT assay both with and without metabolic activation. CSCs from the 1R4F, ULT, and ULT-menthol cigarettes were cytotoxic in the CHO-HGPRT assay, both with and without metabolic activation, while TEST and TEST-menthol CSCs were not cytotoxic under either condition. These results demonstrate that mainstream CSCs from the TEST and TEST-menthol cigarettes are neither genotoxic nor cytotoxic under conditions where CSCs from 1R4F, ULT, and ULT-menthol cigarettes are genotoxic and/or cytotoxic in a concentration-dependent manner.     

Correlation between biomarkers of human exposure to genotoxins with focus on carcinogen-DNA adducts

Correlations among biomarkers, an important issue in biomarker research, provide enhanced insight and understanding of the complexity of molecular mechanisms initiated by environmental genotoxic agents in the human organism. Occupational and environmental exposures mostly represent mixtures of genotoxic agents, whereas the specificity of biomarker measurements varies widely. Here, we give an overview of the correlation studies with particular emphasis on DNA adduct biomarker analysis of exposure to polycyclic aromatic hydrocarbons (PAHs) and/or tobacco smoke. We have collected data on correlations between different DNA adduct detection methods, DNA adduct structures and DNA adduct levels in human tissues. Data are also presented on the correlation between DNA adducts and other biomarkers of exposure and of early biological effects, including protein adducts, urinary metabolites and cytogenetic end points. In numerous studies, 32P-postlabelling and immunoassay measurements of DNA adducts recognized the difference between exposure groups similarly; however, at the individual level, there was, in general, not a statistically significant correlation between the two determinations. Inconsistency was found regarding the correlation between the levels of total bulky adducts and specific single DNA adduct structures. A number of studies found a positive correlation between DNA adduct levels in target and surrogate tissues, although stratification for exposure level may have influenced the results. Characteristically, there was a positive correlation between DNA adduct levels in tumour and normal tissue pairs. In general, there was a lack of correlation between DNA adducts and urinary PAH metabolites, but after stratification for particular genetic polymorphisms correlation may have emerged between the two biomarkers of exposure. The correlations with cytogenetic biomarkers were very complex, with examples of both positive correlation and lack of correlation. Exploration of correlations among biomarkers contributes to the further progress of molecular cancer epidemiology and to the selection of the optimal biomarkers for the investigation of human exposure to carcinogens.     

Comparative 32P-postlabeling analysis of exogenous and endogenous DNA adducts in mouse skin exposed to a wood-preserving waste extract,a complex mixture of polycyclic and polychlorinated chemicals

Wood preserving waste (WPW) sites contain numerous toxic compounds, including phenols, polycyclic aromatic hydrocarbons (PAHs), polychlorinated dibenzodioxins, and dibenzofurans. Previous in vitro and in vivo ³²P-postlabeling studies showed the induction of multiple carcinogen-DNA adducts by WPW extracts. We now have tested the hypothesis in a mouse skin bioassay that a WPW extract not only causes the formation of exogenous, xenobiotic-derived DNA adducts, but also alters the levels of endogenous DNA modifications. Skin DNA of female ICR mice treated topically with an organic WPW extract was found by ³²P-postlabeling to contain significantly increased levels of bulky oxidative DNA lesions (type II I-compounds), in addition to exogenous PAH-derived adducts. The mechanism of this increase is postulated to proceed through electrophilic quinoid compounds, which presumably were formed from phenols by chemical reactions of waste material or biologically by oxidative metabolism. On the other hand, the levels of another class of endogenous DNA adducts (type I I-compounds) were reduced significantly in exposed skin DNA. This effect was explained by the presence of cytochrome P450 inducers in the extract. All three types of DNA alterations observed may play a significant role in carcinogenesis. Our results imply that in addition to exogenous carcinogen-DNA adducts, alterations of endogenous DNA modifications may need to be considered in evaluating carcinogenic risk from toxic chemical wastes and the effects of remediation measures. Environ. Mol. Mutagen. 29:372–378, 1997 © 1997 Wiley-Liss, Inc.     

Immunodetection of benzo[a]pyrene adducts in ovarian cells of women exposed to cigarette smoke

Benzo[a]-pyrene (B[a]P) is a potent mutagen and carcinogen present in cigarettes. We report here on immunodetection and quantification of B[a]P-DNA adducts in granulosa-lutein cells of patients undergoing in- vitro fertilization (IVF) and embryo transfer, who were exposed to cigarette smoke. Follicular fluids (FF) and granulosa-lutein cells were obtained from the same follicular aspirate from 32 women self-reported as active smokers, passive smokers, or non-smokers. Cells were immunostained with 5D11, an anti-B[a]P diolepoxide monoclonal antibody that recognizes DNA adducts. Cotinine, a reliable marker for recent smoke exposure and dose, was assessed by radioimmunoassay in 32 FF samples. Individual scores of cell immunoreactivity were highly correlated with FF cotinine concentrations. Evaluations of immunostaining intensity in 9770 granulosa-lutein cells from the 32 women revealed higher average scores in active and passive smokers, relative to non-smokers. In passive smokers the average level of cell immunostaining was 63% of that of active smokers. These relationships provide quantitative evidence that B[a]P-DNA adduct levels are related to smoke exposure and dose, both recent and long term. Immunostaining was confined to the nucleus, suggesting adduct formation by covalent binding to DNA. Presence of adducts in granulosa-lutein cells from women exposed to cigarette smoke may increase the risk for DNA damage.      

Smoking-related O4-ethylthymidine formation in human lung tissue and comparisons with bulky DNA adducts

Tobacco smoke contains many alkylating agents that can react with DNA to produce O(4)-ethylthymidine (O(4)-etT) and several other types of promutagenic base modifications. Our aims were (i) to confirm results of a pilot study (Godschalk, R., Nair, J., Schooten, F. J., Risch, A., Drings, P., Kayser, K., Dienemann, H. and Bartsch, H. (2002) Comparison of multiple DNA adduct types in tumor adjacent human lung tissue: effect of cigarette smoking. Carcinogenesis, 23, 2081-2086) on the formation of O(4)-etT in smokers' lung; (ii) to explore associations between levels of O(4)-etT and smoking status and (iii) to investigate whether a correlation exists between levels of O(4)-etT and bulky (polycyclic aromatic hydrocarbons-derived) DNA adducts. Archived DNA samples originated from histologically normal peripheral lung tissues of 64 Hungarian lung cancer patients, who underwent lung resection. O(4)-etT was determined by an immunoenriched (32)P-postlabelling-high-performance liquid chromatography method. Levels of bulky DNA adducts were determined by the nuclease P1 adduct-enriched (32)P-postlabelling. O(4)-etT levels ranged from 0.01 to 3.91 adducts/10(8) thymidines. In the combined group of subjects who smoked until surgery or gave up smoking at most 1 year before it, the mean level of O(4)-etT was 1.7-fold (P = 0.015) and of bulky DNA adducts 2.2-fold (P < 0.0001) higher than in long-term ex-smokers (LES) and never-smokers (NS) combined. We found no significant correlation between the individual levels of the two DNA adduct types. No dose-response was detected between O(4)-etT formation and smoking dose. In one-third of LES, O(4)-etT levels were above the 2.0-fold mean level of adducts found in NS, indicating its high persistence. Our results confirm the smoking-related formation of O(4)-etT in human lung DNA that should be explored as biomarker. Its long persistence in target tissue implicates a role of this potentially miscoding lesion in tobacco smoking-associated cancers.     

DNA content of cultured mammalian cells exposed to smoke and smoke fractions from cigarettes containing tobacco or NSM,a tobacco substitute.

The effects of smoke and smoke fractions from tobacco and a substitute smoking material (NSM) on the DNA content of mammaliam cells in culture were measured. Tobacco smoke caused significant (P less than 0.001) changes in the DNA content of all the mammalian cells exposed compared with controls. NSM smoke did not have a significant effect on the DNA content of the exposed cells (P less than 0.95). Smoke from blends of NSM and tobacco caused changes in DNA content in proportion to the amount of tobacco in the mixtures. Condensate from cigarettes containing tobacco or blends of tobacco and NSM caused significant (P less than 0.001) changes in DNA content of mammalian cell populations in culture, whereas equal weights of condensate from NSM alone or NSM containing nicotine did not cause significant changes (P less than 0.05). NSM produces 28% of the weight of condensate per cigarette in comparison with tabacco and would, therefore, be expected to be far less biologically active than tobacco. Filtered smoke from cigarettes containing tobacco caused significant (P less than 0.001) changes in the DNA content of mammalian cells in culture. These changes were quantitatively similar to those caused by whole smoke suggesting that the gas phase of cigarette smoke is biologically more reactive than the particulate phase. The filtered smoke from the substitute smoking material NSM did not cause significant (P less than 0.95) changes in DNA content of cultured mammalian cells. Filtered smoke from blends of NSM and tobacco caused changes in DNA content in proportion to the amount of tobacco in the mixture.     

Uptake of tobacco smoke constituents on exposure to environmental tobacco smoke (ETS)

Summary For the purpose of risk evaluation, passive smoking is frequently regarded as low-dose cigarette smoking. However, since the physical, chemical and biological properties of mainstream smoke (MS), which is inhaled by the smoker and environmental tobacco smoke (ETS), which is breathed by the passive smoker are quite different, risk extrapolation from active smoking to passive smoking is of doubtful value. In a series of experimental exposure studies we compared the uptake of tobacco smoke constituents by active and passive smoking. The results show that biomarkers which were found to be elevated after experimental ETS exposure, such as nicotine and cotinine in plasma and urine as well as thioethers in urine, indicate gas-phase exposure in passive smokers, but particle-phase exposure in active smokers. Biomarkers which should indicate the uptake of particle-bound, genotoxic substances with ETS, such as urinary mutagenicity, metabolites of polycyclic aromatic hydrocarbons (PAH) and DNA adducts, were not found to be elevated even after extremely high ETS exposure. From these results we conclude that a risk evaluation for passive smoking on the basis of dosimetric data is currently not possible.Abbreviations 1-ABP 4-aminobiphenyl - BaA benzo(a)anth-racene - BaP benzo(e)pyrene - BE butanol extraction - BeP benzo(e)pyrene - CO carbon monoxide - COHb carboxyhae-moglobin - DABS DNA binding substances - DRZ diagonal radioactive zone - ETS environmental tobacco smoke - GC gas chromatography - GC/MS gas chromatography coupled to mass spectrometry - HPLC high performance liquid chromatography - HPMA 3-hydroxypropylmercapturic acid - MS mainstream smoke - NNK 4-(N-nitrosomethylamino)-1-(3-pyridyl)-1-butanone - NNN N-nitrosonornicotine - NO_xa nitrogen oxides (NO/NO₂) - PAH polycyclic aromatic hydrocarbons - PhIP 2-amino-1-methyl-6-phenylimidazo(4,5-b)pyridine - P1 nuclease P1 - RSP respirable particles     

Alpha,beta-unsaturated aldehydes in cigarette smoke release inflammatory mediators from human macrophages

Smoking cigarettes is the major risk factor for chronic obstructive pulmonary disease (COPD). COPD is a condition associated with chronic pulmonary inflammation, characterized by macrophage activation, neutrophil recruitment, and cell injury. Many substances contained in cigarette smoke, including reactive oxygen species (ROS), have been proposed to be responsible for the inflammatory process of COPD. However, this issue remains unsettled. By gas chromatography/mass spectrometry (GC/MS) we show that acrolein and crotonaldehyde, two alpha,beta-unsaturated aldehydes, are contained in aqueous cigarette smoke extract (CSE) at micromolar concentrations and mimic CSE in evoking the release of the neutrophil chemoattractant IL-8 and of the pleiotropic inflammatory cytokine TNF-alpha from the human macrophagic cell line U937. In addition, acrolein (10-30 microM) released IL-8 also from cultured human alveolar macrophages and THP-1 macrophagic cells. 4-hydroxy-2-nonenal (30-100 microM), an endogenous alpha,beta-unsaturated aldehyde that is abundant in lungs of patients with COPD, stimulated the release of IL-8 from U937 cells, whereas the saturated aldehyde, acetaldehyde, was ineffective. CSE-evoked IL-8 release was remarkably (> 80%) inhibited by N-acetyl-cysteine (0.1-3 mM) or glutathione monoethyl ester (1-3 mM). Both compounds, by forming covalent adducts (Michael adducts), completely removed unsaturated aldehydes from CSE. Our data demonstrate that alpha,beta-unsaturated aldehydes are major mediators of cigarette smoke-induced macrophage activation, and suggest that they might contribute to pulmonary inflammation associated with cigarette smoke.     

Comparative bone marrow clastogenicity of eigarette sidestream, mainstream and recombined smoke condensates in mice

The chromosome-damaging effects of cigarette sidestream (SS)and mainstream (MS) smoke condensates and a mixture of thesewere compared in 8-week-old NMRI mice by intraperitoneal administration.Each filtered commercial brand of cigarette was smoked by asmoking machine under the standard conditions, and the separatelycollected SS and MS smoke condensates were extracted with acetone/methanolas described elsewhere. The extracts were tested before andafter treatment of animals with an enzyme inducer (Aroclor 1254)or inhibitor (Metyrapone). Increased formation of micronucleiwithin polychromatic erythrocytes (PCEs) of femural bone marrow30 h after injection of the extracts was regarded as being dueto a clastogenic effect. Regardless of the type of smoke extractinjected, the increased formation of micronuclei was found tobe dose dependent. The SS smoke condensate induced 29% moremicronuclei than the MS smoke condensate, the difference beingsignificant (P < 0.01). The overall clastogenicity of a 1:1 mixture of SS and MS smoke condensates was not substantiallydifferent from the activity of either SS or MS smoke condensatealone. Pretreatment of animals with Aroclor clearly enhancedthe differences between the number of micronucleated PCEs causedby SS versus MS smoke condensate; SS smoke condensate induced50% more micronuclei than did MS smoke condensate (P < 0.001).Pretreatment of mice with Metyrapone did not modify appreciablythe induction of micronuclei by either type of smoke. Theseresults are discussed with reference to our previous data involvinginhalation experiments and the recent issue of passive smoking.     

Safety assessment of high fructose corn syrup (HFCS) as an ingredient added to cigarette tobacco

A tiered testing strategy has been developed to evaluate the potential for new ingredients, tobacco processes, and technological developments to alter the biological activity that results from burning tobacco. A series of studies was initially conducted with cigarettes containing 3% high fructose corn syrup (HFCS) as an alternate tobacco casing material to corn syrup/invert sugar, including determination of selected mainstream cigarette smoke (MS) constituent yields, Ames assay, sister chromatid exchange (SCE) assay in Chinese hamster ovary (CHO) cells, a 30-week dermal tumor-promotion evaluation of cigarette smoke condensate (CSC) in SENCAR mice, and a 13-week subchronic inhalation study of MS in Sprague-Dawley rats. A second series of studies was conducted with cigarettes containing 3%, 4% and 5% HFCS including MS chemistry, Ames assay, SCE assay in CHO cells, and a neutral red cytotoxicity assays. Collectively, mainstream smoke chemistry, genotoxicity, dermal tumor-promotion, and inhalation toxicity studies demonstrated no differences between cigarettes with 3% HFCS and cigarettes with 3% corn syrup/invert sugar. Also, mainstream smoke chemistry and genotoxicity of cigarettes with 4% and 5% HFCS were not different from cigarettes with 3% HFCS. In conclusion, the addition of up to 5% HFCS to cigarette does not alter the mainstream smoke chemistry or biological activity of mainstream smoke or mainstream smoke condensate as compared to cigarettes with 3% corn syrup/invert sugar with regard to the parameters investigated and presented.     

Detection of benzo[a]pyrene diol epoxide-DNA adducts in embryos from smoking couples: evidence for transmission by spermatozoa

Tobacco smoking is deleterious to reproduction. Benzo[a]pyrene (B[a]P) is a potent carcinogen in cigarette smoke. Its reactive metabolite induces DNA-adducts, which can cause mutations. We investigated whether B[a]P diol epoxide (BPDE) DNA adducts are detectable in preimplantation embryos in relation to parental smoking. A total of 17 couples were classified by their smoking habits: (i) both partners smoke; (ii) wife non-smoker, husband smokes; and (iii) both partners were non-smokers. Their 27 embryos were exposed to an anti-BPDE monoclonal antibody that recognizes BPDE-DNA adducts. Immunostaining was assessed in each embryo and an intensity score was calculated for embryos in each smoking group. The proportion of blastomeres which stained was higher for embryos of smokers than for non-smokers (0.723 versus 0.310). The mean intensity score was also higher for embryos of smokers (1.40+/-0.28) than for non-smokers (0.38+/-0.14; P = 0.015), but was similar for both types of smoking couples. The mean intensity score was positively correlated with the number of cigarettes smoked by fathers (P = 0.02). Increased mean immunostaining in embryos from smokers, relative to non-smokers, indicates a relationship with parental smoking. The similar levels of immunostaining in embryos from both types of smoking couples suggest that transmission of modified DNA is mainly through spermatozoa. We confirmed paternal transmission of modified DNA by detection of DNA adducts in spermatozoa of a smoker father and his embryo.     

Selenium-mediated reduction in the mutagenicity of cigarette smoke

Cigarette smoke contains carcinogens and mutagens and affects the health of smokers. Recently, increased research has proven the potentially protective activity of selenium (Se) against heavy metal toxicity, cancer, and other health disorders. Accordingly, we have proposed the fortification of tobacco with Se to develop safer cigarettes. As a start in evaluating any biological effects of added Se, we have determined the mutagenicity of inhaled, mainstream (MS) cigarette smoke condensate (CSC), with and without Se, in the preincubation assay of the Ames test. Initially, it was shown that Se, as sodium selenite, was not mutagenic at high concentrations (up to 80 micrograms/plate) with strains TA1538 and TA1978. Subsequently, the effects of different levels of Se, added to MS CSC, were examined with TA98, TA100, and TA1538. On the average, addition of 10 micrograms Se produced mutagenicity reductions of about 50%. Higher levels of added Se yielded further reductions. Cigarette sidestream (SS) smoke, collected between puffs, was also tested. Again, Se added to SS-CSC gave similar reductions, confirming its antimutagenic effect for both mainstream and sidestream smoke.     

Evaluation method for the cytotoxicity of cigarette smoke by in vitro whole smoke exposure

An in vitro whole smoke (WS) exposure method was established to evaluate the toxicological effects of fresh cigarette smoke using the VITROCELL^® system associated with the neutral red uptake (NRU) cytotoxicity assay. The VITROCELL^® system is a newly representative culture and exposure system for in vitro studies of gases or complex mixtures. The impacts of two factors on cytotoxicity measurements of cigarette smoke were investigated using this WS exposure system. The factors include synthetic air exposure and optimal time to perform the NRU assay after smoke exposure. Results showed that synthetic air exposure used in the system did not significantly alter cell survival; 24 h after smoke exposure appeared to be an optimal time-point to assess the cytotoxicity of cigarette smoke. A clear dose–response relationship between smoke exposure and cell viability was demonstrated using this system, and the evaluation method was sensitive to distinguish the differences in smoke-induced cytotoxic effects from different cigarettes. In addition, we tried converting the values of EC₅₀ from WS exposure testing into the values in unit used in total particulate matter (TPM) testing for a purpose of comparison, and the data indicate that the cytotoxicity of smoke measured by WS exposure is greater than that measured by TPM exposure.