Chin K. Lee

A comparison of the mutagenicity of mainstream cigarette smoke condensates from a representative sample of the U.S. cigarette market with a Kentucky reference cigarette (K1R4F)

The Salmonella mutagenicity assay has been used to investigate the mutagenicity of cigarette smoke and cigarette smoke condensate. The Kentucky reference (K1R4F) cigarette is designed to be representative of full-flavor, low-tar cigarettes sold in the U.S. and to serve as a reference standard for comparative studies on the chemistry and biological activities of cigarette smoke and condensate. The objective of this study was to determine if the mutagenicity of mainstream smoke condensate from the K1R4F, as measured by the Salmonella mutagenicity assay, is representative of the mutagenic activity of U.S. cigarettes. Mainstream smoke condensates prepared in dimethyl sulfoxide from the K1R4F and 73 brand styles (representing greater than 70% of the total U.S. cigarette market) were assayed using Salmonella typhimurium TA98 and TA100 (+S9) at concentrations of 0, 25, 50, 75, 100, 125 and 250 micrograms/plate. Revertants/mg condensate were determined by calculating the slopes of the dose-response curves using linear and nonlinear regression models. Revertants/cigarette were determined by multiplying the revertants/mg condensate by the mg condensate/cigarette. No significant differences (p > 0.05) were observed between the mean mutagenicity of U.S. market and K1R4F mainstream smoke condensates in terms of revertants/mg condensate or revertants/cigarette. Increased variability in mutagenicity was observed among the U.S. brands versus that of the K1R4F. This is not surprising since variability among the U.S. brands would be expected to have both measurement error and brand style variability while the K1R4F variability contains only the measurement error portion. These results demonstrate that the K1R4F is a representative model for the U.S. cigarette market in comparative Salmonella mutagenicity studies using mainstream smoke condensates.

Inhibition of mutagenicity of N-nitrosamines by tobacco smoke and its constituents

Tobacco smoke is a complex chemical mixture including pyridine alkaloids and N-nitrosamines, with the concentration of the former several orders of magnitude higher that that of the N-nitrosamines. The major biologically important N-nitrosamines present in tobacco smoke are N-nitrosodimethylamine (NDMA), 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) and N(1)-nitrosonornicotine (NNN). These nitrosamines require metabolic activations by cytochrome P-450s for the expression of mutagenicity. Although nicotine, the major pyridine alkaloid in tobacco, has been shown to inhibit the metabolic activation of NNK, its effect on the mutagenicity of NNK and other N-nitrosamines has not been reported, In the present study, the ability of three pyridine alkaloids (nicotine, cotinine, nornicotine) and aqueous cigarette smoke condensate extract (ACE) to inhibit the mutagenicity of tobacco-related N-nitrosamines was tested on Salmonella typhimurium strain TA1535 in the presence of a metabolic activation system (S9). All three of the pyridine alkaloids tested, as well as ACE, inhibited the mutagenicity of NDMA and NNK, but not NNN, in a concentration-dependent manner. The induction of SCEs in mammalian cells (CHO) by NNK in the presence of metabolic activation was also significantly reduced by nicotine and cotinine. None of the observed reductions in mutagenicity could be explained by cytotoxicity. These results demonstrate that tobacco smoke contains chemicals, pyridine alkaloids and other unidentified constituent(s), which inhibit the mutagenicity of N-nitrosamines.

Ninety-day inhalation study in rats, using aged and diluted sidestream smoke from a reference cigarette : DNA adducts and alveolar macrophage cytogenetics

The chemical constituents of cigarette smoke are greatly diluted in environmental tobacco smoke (ETS). In the typical indoor environment where cigarettes are smoked, the mean value of respirable suspended particles is approximately 0.1 mg/m3. In this study, we used aged and diluted sidestream smoke (ADSS) of 1R4F University of Kentucky research cigarettes as a surrogate for ETS and exposed Sprague-Dawley rats nose-only to 0, 0.1, 1.0, and 10 mg wet total particulate matter (WTPM)/m3 for 6 hr per day for 14 consecutive days. DNA from lung, heart, larynx, and liver was tested for adduct formation after 7 and 14 days of exposure and after 14 days of recovery. In addition, alveolar macrophages from animals exposed for 7 days were examined for chromosomal aberrations. Exposure-related DNA adducts were not observed in any of the animals at 0.1 or 1.0 mg WTPM/m3, which represent ambient and 10-fold exaggerated ETS concentrations, respectively. Slight diagonal radioactive zones, characteristic of adducts observed in human smokers and in animals exposed to mainstream smoke, were observed, but only in lung and heart DNA of animals exposed to the highest concentration of ADSS (10 mg WTPM/m3), a 100-fold exaggeration of typical field measurements of ETS. The mean relative adduct labeling values (+/- SE) were 8.7 (+/- 0.2) adducts per 10(9) nucleotides for lung DNA and 5.7 (+/- 0.7) adducts per 10(9) nucleotides for heart DNA after 14 days of exposure. No elevation in chromosomal aberrations was observed in alveolar macrophages.(ABSTRACT TRUNCATED AT 250 WORDS)

Tyrosinase enhances the covalent modification of DNA by dopamine

Dopamine-induced DNA damage was studied in vitro in the presence of the enzyme tyrosinase. Dopamine auto-oxidizes to form dopamine quinone, a reactive molecule which spontaneously decomposes to form additional reactive species that can modify cellular macromolecules. The conversion of dopamine to reactive dopamine quinone is accelerated by the enzyme tyrosinase. The objective of this study was to evaluate whether dopamine autoxidation would lead to DNA-reactive intermediates and whether tyrosinase would increase the rate of this reaction. Incubation of DNA with [3H]dopamine resulted in the concentration-dependent covalent incorporation of the labeled catecholamine into precipitable nucleic acid (DNA adduct formation). The presence of tyrosinase increased the incorporation by as much as two orders of magnitude. Antioxidants markedly reduced this incorporation, suggesting that dopamine free-radicals were critical in DNA modification. DNA adducts formed by dopamine in the presence of tyrosinase were visualized using 32P-postlabeling and thin layer chromatography. The results suggest that DNA modification by dopamine is accelerated by tyrosinase which, in turn, could contribute to destruction of dopaminergic neurons in vivo.

Inhibitory activity of cigarette-smoke condensate on the mutagenicity of heterocyclic amines.

Cigarette-smoke condensate (CSC) is a complex mixture containing over 3800 identified chemicals including nicotine, water, mutagens, antimutagens, cytotoxins and inert chemicals. Although CSC is mutagenic in the Ames test, its effect on the activity of other mutagens has not been characterized. Using the Ames Salmonella bacterial mutagenesis assay, we found CSC exerts a significant inhibitory effect on mutagens requiring bioactivation. Those studied included heterocyclic amines (Glu-P-1, Glu-P-2, IQ, MeIQ, Trp-P-1 and Trp-P-2), benzo[a]pyrene (B[a]P) and aflatoxin B1. However, CSC had no effect on the activity of direct-acting mutagens (2-nitrofluorene, sodium azide, 4-nitro-1,2-phenylenediamine, 4-nitroquinoline N-oxide and methyl methanesulfonate). With indirect-acting mutagens, the reduced number of revertants observed in the presence of CSC was not attributable to cytotoxicity. CSC exhibited a potent inhibitory effect on the cytochrome P-450 dependent monooxygenases, ethoxyresorufin O-deethylase and B[a]P hydroxylase. This suggests inhibition of the cytochrome P-450 isozymes as one possible mechanism for the antimutagenicity of CSC. Fractionation studies of CSC revealed that the neutral, weakly acidic (phenolic) and basic fractions are all effective as antimutagens against Glu-P-1, a representative heterocyclic amine. This indicates that several classes of chemicals contribute to the inhibitory effect of CSC on the mutagenicity of the heterocyclic amines.

Comparative genotoxicity testing of mainstream whole smoke from cigarettes which burn or heat tobacco

The genotoxic potential of mainstream whole smoke (MWS) from cigarettes which heat tobacco (TEST) was compared to the genotoxic potential of MWS from a cigarette which burns tobacco (REFERENCE). MWS was collected from a University of Kentucky 1R4F cigarette (REFERENCE) and two, TEST cigarettes, one with regular flavor and the other with menthol flavor. All cigarettes were smoked on a smoking machine and the particulate phase was collected on Cambridge filter pads. The vapor phase, which passed through the pad, was bubbled into a dimethyl sulfoxide (DMSO) trap. The filter pad was extracted with the DMSO in the trap and additional DMSO to obtain MWS. MWS representing an identical number of cigarettes was tested to make a per-cigarette comparison of their genotoxic potential. REFERENCE MWS was mutagenic and cytotoxic in the Ames assay in the presence of metabolic activation while it was cytotoxic but not mutagenic in the absence of metabolic activation. Statistically significant increases in frequency of both sister-chromatid exchanges and chromosomal aberrations were observed in Chinese hamster ovary cells exposed to REFERENCE MWS with and without metabolic activation. MWS from the TEST cigarettes, with either regular or menthol flavor, was neither cytotoxic nor mutagenic in any of these assays. In summary, MWS from the 2 TEST cigarettes was neither genotoxic nor cytotoxic under conditions where MWS from the REFERENCE cigarettes was genotoxic and/or cytotoxic in a concentration-dependent manner.

Analysis of cytogenetic effects in bone-marrow cells of rats subchronically exposed to smoke from cigarettes which burn or only heat tobacco.

The genotoxic effects of 90-day nose-only exposures to smoke from new cigarettes, which heat but do not burn tobacco (New), or from reference cigarettes, which burn tobacco, were evaluated in Sprague-Dawley rats by examining the cytogenetic endpoints of sister-chromatid exchanges (SCE), chromosome aberrations, and micronuclei in bone-marrow cells. The concentrations of wet total particulate matter (WTPM) and carbon monoxide in the smoke from both cigarette types were similar. The mainstream smoke from both New and reference cigarettes was adjusted to WTPM concentrations of approx. 200 and 400 micrograms/l for low and high smoke exposure. Rats were exposed to smoke 1 h per day, 5 days per week for 13 consecutive weeks. Inhalation of smoke by the exposed animals was confirmed by analysis of blood carboxyhemoglobin and plasma nicotine. Examination of bone-marrow cells following the final day of exposure showed that smoke from neither the New nor reference cigarette induced a positive response in the SCE, chromosome aberration, or micronucleus assays in rats.

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

The effect of exposure to nicotine, carbon monoxide, cigarette smoke or cigarette smoke condensate on the mutagenicity of rat urine.

Cigarette smokers have been reported to void urine which is more mutagenic than that voided by non-smokers, but the specific urinary mutagen(s) have not been identified. Since mechanistic studies are best performed in animal models, the objective of this study was to determine if a model to study the role of cigarette smoke and its components in urinary mutagenicity could be developed in rats. XAD-2 resin was used to concentrate the urine and the microsuspension modification of the Ames test used to quantify mutagenicity. Nicotine administered by intraperitoneal injection at 0.8 mg/kg (the maximum tolerated dose) or inhalation of carbon monoxide for 14 days at the maximum tolerated dose (1800 ppm, resulting in 68% carboxyhemoglobin) did not increase urinary mutagenicity. Cigarette smoke condensate (CSC) prepared by electrostatic precipitation of mainstream smoke increased urinary mutagenicity at doses of 100 and 200 mg/kg when administered acutely by either i.p. injection or gavage, verifying that the assay system was capable of detecting cigarette smoke-related mutagens in the urine. However, cigarette smoke administered by the appropriate route of exposure, nose-only inhalation, for 1, 7, 14 or 90 days (1 h per day) did not increase urinary mutagenicity. The smoke concentration administered was at or near the maximum tolerated dose as evidenced by carboxyhemoglobin concentrations of approximately 50%, and of 10% or more weight loss in exposed animals. Thus, although cigarette smoke condensate is mutagenic in vitro and mutagenic urine was observed when rats were given high doses of CSC by inappropriate routes of administration, acute or subchronic inhalation exposure to the maximum tolerated dose of whole cigarette smoke did not increase urinary mutagenicity in rats. These results indicate that the rat may be an inappropriate model to study urinary mutagenicity following the inhalation of tobacco smoke.

Histopathology, Urine Mutacenicity, and Bone Marrow Cytocenetics of Mice Exposed Nose-Only to Smoke from Cigarettes that Burn or Heat Tobacco

AbstractMale and female B6C3F1 mice were exposed nose-only to smoke from a test cigarette that heats tobacco, or from a reference cigarette that burns tobacco. Cigarette smoke was generated by a smoking machine, and the concentrations of wet total particulate matter (WTPM) were adjusted to 0, 0.16, 0.32, or 0.64 mg/l. Exposures were performed 1 h/day for 14 consecutive days. Urine mutagenicity was assessed by a modified Ames bacterial assay Clastogenesis (sister-chromatid exchanges, chromosome aberrations, and micronuclei) was evaluated in bone marrow cells. Respiratory rate was depressed significantly by exposure to smoke from the reference cigarette, but not the test. Blood carboxyhemoglobin, plasma nicotine, and plasma cotinine showed exposure-dependent increases in the smoke-exposed animals. Histopathological changes similar to those noted previously in smoke-exposed rats were noted, with fewer and less pronounced changes in the animals exposed to smoke from the test cigarette when compared with the r...