Acute effects of cigarette smoke on three-dimensional cultures of normal human oral mucosa

Context: Human oral mucosa is the combustion chamber of cigarette, but scanty evidence is available about the early smoke effects.

Objective: The present work aimed at evaluating from a morphological point of view whole smoke early effects on epithelial intercellular adhesion and keratinocyte terminal differentiation in a three-dimensional model of human oral mucosa.

Materials and methods: Biopsies of keratinized oral mucosa of healthy nonsmoking women (n = 5) were collected. After culturing in a Transwell system, one fragment of each biopsy was exposed to the smoke of one single cigarette; the remnant represented the internal control. The distribution of epithelial differentiation markers (keratin-10, K10, and keratin-14, K14, for suprabasal and basal cells respectively), desmosomes (desmoglein-1, desmoglein-3), tight junctions (occludin), adherens junctions (E-cadherin, β-catenin), and apoptotic cells (p53, caspase 3) were evaluated by immunofluorescence.

Results: Quantitative analysis of K14 immunolabeling revealed an overexpression in the suprabasal layers as early as 3 h after smoke exposure, without impairment of the epithelial junctional apparatus and apoptosis induction.

Discussion and conclusion: These results suggested that the first significant response to cigarette smoke came from the basal and suprabasal layers of the human oral epithelium. The considered model maintained the three-dimensional arrangement of the human mucosa in the oral cavity and mimicked the inhalation/exhalation cycle during the exposure to cigarette smoke, offering a good possibility to extrapolate the reported observations to humans.     

Comet assay and air–liquid interface exposure system: A new combination to evaluate genotoxic effects of cigarette whole smoke in human lung cell lines

Over the past three decades, the genotoxic effects of cigarette smoke have generally been evaluated in non-human cell models after exposure to particulate phase, gas phase, or cigarette smoke condensate, rather than the whole smoke aerosol itself. In vitro setups using human cell lines and whole smoke exposure to mimic actual aerosol exposure should more accurately reflect human cigarette smoke exposure. We investigated the VITROCELL® 24 air–liquid interface exposure system in combination with the comet assay to assess DNA damage in two different human lung epithelial cell lines exposed to whole smoke. Results showed a repeatable and reproducible dose–response relationship between DNA damage and increased whole smoke dose in both cell lines. Thus, the combination of the comet assay with the VITROCELL® 24 represents a valuable new in vitro test system to screen and assess DNA damage in human lung cells exposed to whole smoke.     

黄酮类成分黄芩素、槲皮素、丹参素钠对吸烟致细胞毒性和DNA损伤的保护作用

目的评价吸烟致细胞毒性和DNA损伤以及黄酮类成分黄芩素、槲皮素、丹参素钠的保护作用。方法以自动吸烟机按照FTC协议吸烟产生的主流烟雾在线染毒B-16细胞和人颊黏膜细胞两种真核细胞,通过MTT比色法和单细胞凝胶电泳法检测吸烟所致的细胞毒性和DNA损伤,并考察黄芩素、槲皮素、丹参素钠的保护作用。结果吸烟可致体外培养的B-16细胞活力明显下降,两种细胞的DNA明显损伤。随着烟气作用时间的延长,表征细胞内DNA损伤程度的彗星尾矩、Olive尾矩都有增加;1 mmol/L槲皮素、黄芩素和丹参素均可明显缓解吸烟引起的细胞毒性和DNA损伤,对B-16细胞的活力提升50%左右,对人颊黏膜细胞的DNA保护效果超过60%。结论吸烟可致细胞毒性和细胞DNA损伤,但是黄酮类成分黄芩素、槲皮素、丹参素钠均对细胞和DNA具有保护作用。     

Inhibition of immunological function mediated DNA damage of alveolar macrophages caused by cigarette smoke in mice

Exposure to cigarette smoke impairs the pulmonary immune system, including alveolar macrophage function, although the mechanisms by which this occurs are not fully elucidated. This study investigates the effect of cigarette smoke exposure on the antigen-presenting activity of alveolar macrophages, which is required for antigen-specific response to T cells. C57BL/6 mice were exposed to cigarette smoke for 10 days using a Hamburg II smoking machine, and alveolar macrophages were obtained by bronchoalveolar lavage. The antigen-presenting activity of alveolar macrophages was significantly inhibited in mice exposed to cigarette smoke compared with mice not exposed to cigarette smoke. Major histocompatibility complex class II cell surface molecule–positive cells, B7-1 molecule–positive cells, and interleukin-1β messenger RNA gene expression in alveolar macrophages were significantly decreased in mice exposed to cigarette smoke compared with mice not exposed to cigarette smoke. In contrast, DNA damage and generation of superoxide and hydrogen peroxide in alveolar macrophages were significantly increased by cigarette smoke exposure. These results suggest that inhibition of the antigen-presenting activity of alveolar macrophages may result from decreased expression of major histocompatibility complex class II and B7-1 molecules and interleukin-1β messenger RNA gene expression following cigarette smoke exposure. Furthermore, inhibition of antigen presentation in alveolar macrophage may result from DNA damage induced by excessive amounts of reactive oxygen species being generated by alveolar macrophages following cigarette smoke exposure. These findings suggest that cigarette smoke impairs the immunological function of alveolar macrophages and, as a result, increases the risk for pulmonary infection.     

Pharmacokinetics of nicotine in rats after multiple-cigarette smoke exposure

The pharmacokinetics of nicotine and its major metabolites was evaluated in male rats after multiple-cigarette smoke exposure. A smoke-exposure apparatus was used to deliver cigarette smoke to the exposure chamber. The rats were exposed to smoke from a single cigarette every 8 hr for 14 days and to the smoke of a cigarette spiked with radiolabeled nicotine on the 15th day. Blood and urine samples were collected at timed intervals during the 10-min smoke-exposure period of the last cigarette and up to 48 hr thereafter. Nicotine, cotinine, and other polar metabolites were separated by thin-layer chromatography and quantified by liquid scintillation counting. The data were analyzed by computer fitting, and the derived pharmacokinetic parameters were compared to those observed after a single iv injection of nicotine and after a single-cigarette smoke exposure. The results indicated that the amount of nicotine absorbed from multiple-cigarette smoke was approximately 10-fold greater than that absorbed from a single cigarette. Also, unlike the single-cigarette smoke exposure experiment, nicotine plasma levels did not decay monotonically but increased after the 5th hr, and high plasma concentrations persisted for 30 hr. The rate and extent of the formation of cotinine, the major metabolite of nicotine, were decreased as compared with their values following a single-cigarette smoke exposure. It was concluded that nicotine or a constituent of tobacco smoke inhibits the formation of cotinine and may affect the biotransformation of other metabolites. Urinary excretion tended to support the conclusions that the pharmacokinetic parameters of nicotine and its metabolites were altered upon multiple as compared to single dose exposure.     

Comparison of two in vitro models of cigarette smoke exposure

Cigarette smoke is associated with a high morbidity and mortality, and affects particularly the respiratory tract. Various in vitro models have been developed to study the effects of cigarette smoke on bronchial epithelial cells. To identify an adequate exposure model of cigarette smoke, we analysed the effects of cigarette smoke extract (CSE) and a smoking chamber on bronchial epithelial cells. The release of monocyte chemoattractant protein (MCP)-1, interleukin (IL)-10, and vascular endothelial growth factor (VEGF) was measured. Bronchial epithelial cells isolated from Sprague-Dawley rat (NRBE) were exposed to 3% CSE or air control every day for 3 days. In the second model, NRBE were placed in an air/liquid interface and exposed, in a smoking chamber, to whole smoke from 2 cigarettes, twice daily for 3 days. Levels of MCP-1, IL-10, and VEGF were measured by enzyme-linked immunosorbent assay (ELISA), 24?h after the last exposure. The pattern of MCP-1 production by bronchial epithelial cells was different between the two models. MCP-1 release was increased after 3 days of exposure in the CSE model, but was inhibited using the smoking chamber model. Production of IL-10 by NRBE was reduced after 3 days in both models. Finally, no difference was observed in the production of VEGF between the two models. CSE and the smoking chamber differently modulate bronchial epithelial cell mediator production, demonstrating that the model of cigarette smoke exposure used can influence the data obtained.     

Serotonin receptors 5-HTR2A and 5-HTR2B are involved in cigarette smoke-induced airway inflammation,mucus hypersecretion and airway remodeling in mice

BackgroundCigarette smoke plays an important role in the pathogenesis of chronic obstructive pulmonary disease (COPD). Recently, elevated serotonin (5-HT) levels were found in the plasma of COPD patients. The role of 5-HT and its receptors in airway inflammation and remodeling induced by cigarette smoke is unclear.MethodsBALB/c mice received the 5-HTR2A inhibitor ketanserin, the 5-HTR2B inhibitor RS-127445 or the natural 5-HTR2A/2B inhibitor quercetin intraperitoneally, then were exposed to cigarette smoke for 6 or 12 weeks. Control mice received placebo and were exposed to room air or cigarette smoke. Mice were sacrificed and bronchial alveolar lavage fluid (BALF) and lung tissue samples were collected.ResultsImmunohistochemistry and western blot confirmed an increase in both 5-HTR2A and 5-HTR2B expression in mouse lungs after exposure to cigarette smoke for 6 and 12 weeks. Cigarette smoke induced accumulation of macrophages and neutrophils and increased levels of inflammatory cytokines, including IL-1β and TNF-ɑ, in BALF and lung tissue; these effects were inhibited by ketanserin, RS-127445 and quercetin. Pretreatment with 5-HT receptor antagonists suppressed the goblet cell hyperplasia induced by 6- or 12-week exposure to cigarette smoke, based on Alcian blue-periodic acid Schiff staining. After 12 weeks of cigarette smoke exposure, Masson's staining showed fibrosis surrounding the mouse airways, and inhibitor pretreatment significantly attenuated the thickening and collagen deposition around the small airways.ConclusionsOur results suggest that cigarette smoke-induced airway inflammation and small airway remodeling are partially mediated by 5-HTR2A and 5-HTR2B, which could be a new therapeutic target for airway remodeling in COPD.     

An animal model of cigarette smoke-induced in utero growth retardation

Maternal/fetal genetic constitution and environmental factors are vital to delivery of a healthy baby. In the United States (US), a low birth weight (LBW) baby is born every minute and a half. LBW, defined as weighing less than 5.5 lbs at birth, affects nearly 1 in 12 infants born in the US with resultant costs for the nation of more than 15 billion dollars annually. Infant birth weight is the single most important factor affecting neonatal mortality. Various environmental and genetic risk factors for LBW have been identified. Several risks are preventable, such as cigarette smoking during pregnancy. Over one million babies are exposed prenatally to cigarette smoke accounting for over 20% of the LBW incidence in the US. Cigarette smoke exposure in utero results in a variety of adverse developmental outcomes with intrauterine growth restriction and infant LBW being the most well documented. However, the mechanisms underlying the causes of LBW remain poorly understood. The purpose of this study was: (1) to establish an animal model of cigarette smoke-induced in utero growth retardation and LBW using physiologically relevant inhalation exposure conditions which simulate "active" and "passive" tobacco smoke exposures, and (2) to determine whether particular stages of development are more susceptible than others to the adverse effects of in utero smoke exposure on embryo/fetal growth. Pregnant C57BL/6J mice were exposed to cigarette smoke during three periods of gestation: pre-/peri-implantation (gestational days [gds] 1-5), post-implantation (gds 6-18), and throughout gestation (gds 1-17). Reproductive and fetal outcomes were assessed on gd 18.5. Exposure of dams to mainstream/sidestream cigarette smoke, simulating "active" maternal smoking, resulted in decreases in fetal weight and crown-rump length when exposed throughout gestation (gds 1-17). Similar results were seen when dams were exposed only during the first 5 days of gestation (pre-/peri-implantation period gds 1-5). Exposure of dams from the post-implantation period through gestation (gds 6-18) did not result in reduced fetal weight, although a significant reduction in crown-rump length remained evident. Interestingly, maternal sidestream smoke exposure, simulating exposure to environmental tobacco smoke (ETS), during the pre-/peri-implantation period of development also produced significant decreases in fetal weight and crown-rump length. Collectively, results from the present study confirm an association between prenatal exposure to either "active" or "passive" cigarette smoke and in utero growth retardation. The data also identify a period of susceptibility to in utero cigarette smoke exposure-induced growth retardation and LBW during pre-/peri-implantation embryonic development.     

Comparative analysis of the impact of e-cigarette vapor and cigarette smoke on human gingival fibroblasts

Human gingival fibroblasts (HGF) play a vital role in wound healing, oral cancer, and are among the first cells being exposed to e-cigarette vapor (eCV) or cigarette smoke (CS) during inhalation. Although the cell-damaging effect of CS has been well studied, the effects of eCV on gingival cells are still unclear. The aim of this in vitro study was to compare the effects of eCV and CS on HGF in terms of proliferation, metabolic activity, cell death, and formation of reactive oxygen species (ROS).After 24 h cell numbers in CS-exposed cells in contrast to eCV-exposed cells were significantly decreased compared to the control. At later points in time, such differences could no longer be observed. Compared to the control, HGF stimulated with eCV showed a significantly higher metabolic activity 1 h, 24 h, and 48 h after exposure. 24 h after exposure, the metabolic activity was increased in both test groups. No caspase 3/7 activation nor significant differences in the amount of apoptosis/necrosis among the groups were seen. Only in CS-exposed cells ROS formation was increased at 1 h, 3 h, and 6 h after exposition.In conclusion, when compared to conventional CS, a less harmful effect of eCV on HGF can be assumed.     

Studies on the deposition and distribution of catechol from whole cigarette smoke in BC3F1Cum mice

Tritiated catechol has been used to follow the pharmacokinetics and metabolic fate of inhaled catechol in cigarette smoke in $\text{BC3F1}\text{Cum}$ mice. The presence of [³H]catechol in the smoke was verified by silica gel chromatography, high-performance liquid chromatography, and gas chromatography/mass spectrometry. Mice were exposed to 10% ($\text{v}\text{v}$) 2R1 cigarette smoke on the Walton Horizontal Smoking Machine under standard conditions of 35 ml puff volume, 2 sec/puff, 10 puffs/cigarette. The deposition and distribution of inhaled catechol were determined in all internal tissues, urine, and feces. Data showed that clearance was occurring during the 10-min smoke exposure period. Immediately after exposure, over 50% of the radioactivity was found in the blood, with 10% found in the lung, and approximately 12% in the respiratory tract. Over 91% of the inhaled radioactivity was found in the urine 120 min after exposure. Less than 0.5% of the total dose was found in the lung at this time. We conclude that catechol in smoke is rapidly absorbed, redistributed, and excreted from mice exposed to whole cigarette smoke.     

The effect of a single treatment with cigarette smoke on the blood levels and hemodynamic effects of propranolol in rats

The effect of a single treatment with cigarette smoke on the blood levels and hemodynamic effects of propranolol in rats was studied. Pentobarbital sleep time was not affected whereas zoxazolamine paralysis time was shortened 72% in rats, 24 h after the cigarette smoke exposure. The beta-adrenoceptor blocking effect of propranolol observed at 10 and 20 min time intervals was abolished in rats exposed to cigarette smoke 24 h after the exposure. The blood propranolol concentrations were decreased in rats pretreated with phenobarbital, 3,4-benzpyrene and ethanol as well as in cigarette smoke exposed rats. Among several factors that could influence propranolol metabolism, in this study, enzyme induction is suggested to be dominant.     

CIGARETTE SMOKE VAPOR-PHASE EFFECTS IN THE RAT UPPER RESPIRATORY TRACT

The temporal and regional cytotoxic and proliferative potential of whole smoke or the vapor phase of smoke from reference cigarettes was investigated. Male F344 rats were exposed nose-only 1 h/ day for up to 20 weekdays to 500 mg/m 3 whole smoke, the vapor-phase equivalent of 500 mg/ m 3 whole smoke (generated by electrostatic precipitation of particulates), or filtered air. Histopathology (1, 2, 5, 10, or 20 exposures, 1 and 4 wk postexposure) and cell proliferation (BrdU incorporation after 5 or 20 exposures and at 4 wk postexposure) were assessed in the nose and larynx. Blood nicotine, cotinine, and carboxyhemoglobin were monitored to substantiate exposure. Nicotine and cotinine levels were significantly elevated (p.05) in whole-smoke-exposed rats relative to both filtered-air- and vapor-phase-exposed rats, while blood carboxyhemoglobin was comparably increased in both whole-smoke- and vapor-phase-exposed groups. Respiratory epithelial cell necrosis was observed in the anterior nose after only a single exposure to either whole smoke or its vapor phase. Hyperplasia subsequently developed after additional exposures to whole smoke or vapor phase, with squamous metaplasia occurring in whole-smoke-exposed animals. After 20 exposures, the cell proliferation index was increased in the nasal respiratory epithelium of rats exposed to either whole smoke or smoke vapor phase, with a greater response noted in wholesmoke-exposed rats. A minimal increase in the cell proliferation index, without significant histopathology, was noted in the olfactory epithelium. Necrosis of the laryngeal epithelium was an immediate response to whole-smoke exposure. This was eventually followed by squamous metaplasia. Hyperplasia, without initial cell necrosis, was seen in the larynges of smoke vapor-phase-exposed rats. Only minimal squamous metaplasia occurred in the larynges of the vapor-phase-exposed rats. Histopathologic and proliferative responses were markedly reduced in all respiratory-tract tissues at 1 and 4 wk postexposure. These data suggest that the morphologic changes commonly seen in the upper respiratory tract of whole-smoke-exposed rats are early adaptations related, in part, to components of the vapor phase of mainstream cigarette smoke.     

Acute exposure to waterpipe tobacco smoke induces changes in the oxidative and inflammatory markers in mouse lung

Context: Tobacco smoking represents a global public health threat, claiming approximately 5 million lives a year. Waterpipe tobacco use has become popular particularly among youth in the past decade, buttressed by the perception that the waterpipe "filters" the smoke, rendering it less harmful than cigarette smoke. Objective: In this study, we examined the acute exposure of waterpipe smoking on lung inflammation and oxidative stress in mice, and compared that to cigarette smoking. Materials and methods: Mice were divided into three groups; fresh air control, cigarette and waterpipe. Animals were exposed to fresh air, cigarette, or waterpipe smoke using whole body exposure system one hour daily for 7 days. Results: Both cigarette and waterpipe smoke exposure resulted in elevation of total white blood cell count, as well as absolute count of neutrophils, macrophages, and lymphocytes (P < 0.01). Both exposures also elevated proinflammatory markers such as TNF-α and IL-6 in BALF (P < 0.05), and oxidative stress markers including GPx activity in lungs (P < 0.05). Moreover, waterpipe smoke increased catalase activity in the lung (P < 0.05). However, none of the treatments altered IL-10 levels. Discussion and conclusion: Results of cigarette smoking confirmed previous finding. Waterpipe results indicate that, similar to cigarettes, exposure to waterpipe tobacco smoke is harmful to the lungs.     

Inhalation of tobacco smoke induces increased proliferation of urinary bladder epithelium and endothelium in female C57BL/6 mice

Cigarette smoking is the major environmental risk factor for bladder cancer in humans. Aromatic amines, potent DNA-reactive bladder carcinogens present in cigarette smoke, contribute significantly. However, increased cell proliferation, caused by direct mitogenesis or in response to cytotoxicity, may also play a role since urothelial hyperplasia has been observed in human cigarette smokers. We examined the urothelial effects of cigarette smoke (whole body inhalation exposure (Teague) system) in female C57BL/6 mice at various times in two studies, including reversibility evaluations. In both studies, no urothelial hyperplasia was observed by light microscopy in any group. However, in study 1, the Ki-67 labeling index (LI) of the urothelium was significantly increased in the smoke exposed group compared to controls through 3 months, but was not present at 6, 9 or 12 months even with continued exposures. In the groups that discontinued smoke exposure, it returned to the same levels as controls or lower. In study 2, the bromodeoxyuridine LI was similar to controls on day 1 but significantly increased at 5 days in the smoke exposed group. In the group that discontinued smoke exposure for 2 days, the LI was increased compared to controls but not significantly. Superficial urothelial cell cytotoxicity and necrosis were detectable by scanning electron microscopy at 5 days. Changes in LI of submucosal endothelial cells generally followed those of the urothelium and effects were reversible upon cessation of exposure. The increased urothelial proliferation appeared to be due to superficial cell cytotoxicity with consequent regeneration.     

Pathological alterations in Syrian golden hamster lungs after passive exposure to cigarette smoke

The effects of 2 types of research cigarettes, differing in their total smoke delivery and condensate, were examined as to their histopathological effects on Syrian golden hamster lungs. The animals were passively exposed to the total smoke of the cigarettes once a day, 5 days/week for 1 year. Experimental and control animals were killed one day after termination of exposure. Varying effects on the macrophages of pulmonary alveolar tissue were observed. Infiltration of lung tissue by “Brown cells” was a common pathological alteration. Qualitative and quantitative differences existed between the two cigarette groups with respect to the occurrence of such “Brown cell” clumps. The response of the lung tissue to smoke exposure would appear to be dependent upon the amount of mainstream total particulate matter (TPM), the amount of condensate, the time exposed and the number of cigarettes.     

Oral exposure to cadmium and mercury alone and in combination causes damage to the lung tissue of Sprague-Dawley rats

Environmental presence and human exposure to heavy metals in air and cigarette smoke has led to a worldwide increase in respiratory disease. The effects of oral exposure to heavy metals in liver and kidney structure and function have been widely investigated and the respiratory system as a target is often overlooked. The aim of the study was to investigate the possible structural changes in the lung tissue of Sprague-Dawley rats after oral exposure for 28 days to cadmium (Cd) and mercury (Hg), alone and in combination at 1000 times the World Health Organization’s limit for each metal in drinking water. Following exposure, the general morphology of the bronchiole and lungs as well as collagen and elastin distribution was evaluated using histological techniques and transmission electron microscopy. In the lungs, structural changes to the alveoli included collapsed alveolar spaces, presence of inflammatory cells and thickening of the alveolar walls. In addition, exposure to Cd and Hg caused degeneration of the alveolar structures resulting in confluent alveoli. Changes in bronchiole morphology included an increase in smooth muscle mass with luminal epithelium degeneration, detachment and aggregation. Prominent bronchiole-associated lymphoid tissue was present in the group exposed to Cd and Hg. Ultrastructural examination confirmed the presence of fibrosis where in the Cd exposed group, collagen fibrils arrangement was dense, while in the Hg exposed group, additional prominent elastin was present. This study identified the lungs as target of heavy metals toxicity following oral exposure resulting in cellular damage, inflammation and fibrosis and increased risk of respiratory disease where Hg showed the greatest fibrotic effect, which was further, aggravated in combination with Cd.     

Sequential changes in the structure of the rat respiratory system during and after exposure to cigarette smoke

The effect of twice daily exposure to diluted cigarette smoke on the structure of the respiratory system was examined in rats exposed for up to 84 days. Changes in respiratory tract structure were also determined in animals which were exposed for 42 days and then left untreated for an equal length of time. Daily food consumption and growth rate were reduced in sham-smoked and in smoke-exposed rats compared with cage controls. When both these treatments were stopped, food consumption and growth rate increased. Goblet cell hyperplasia of tracheal and bronchial epithelia, increased numbers of alveolar macrophages, squamous metaplasia, and hyperplasia of the larynx were seen in rats after 2 weeks of exposure to smoke. Except for tracheal goblet cell hyperplasia, within 14 to 42 days of exposure commencing all these changes showed a maximal observed response which was subsequently maintained as exposures continued up to 84 days. Tracheal goblet cell hyperplasia and alveolar metaplasia increased progressively during this extended exposure period. When exposure to smoke was discontinued after 42 days, larynx, trachea, and bronchus all reverted to normal at varying rates. The incidence, but not the severity, of the alveolar metaplasia induced during the smoke-exposure period continued to increase when animals were not being exposed to smoke.     

In vitro cytotoxicity of the nitric oxide donor, S-nitroso-N-acetyl-penicillamine, towards cells from human oral tissue.

The cytotoxicity of the nitric oxide donor, S-nitroso-N-acetyl-penicillamine (SNAP), towards cultured human cells from oral tissue was evaluated. The toxicity of SNAP to Smulow-Glickman gingival epithelial cells was correlated with the liberation of nitric oxide, as N-acetyl-D,L-penicillamine, the SNAP metabolites, N-acetyl-D,L-penicillamine disulfide and nitrite, and preincubated (denitrosylated) SNAP did not affect viability. Comparing equimolar concentrations of various nitric oxide donors, cytotoxicity appeared to be inversely related to the relative stability (i.e., half-life) of the test compound; the sequence of cytotoxicity for a 4 hr exposure was S-nitrosoglutathione>spermine NONOate> SNAP>DPTA NONOate>DETA NONOate. Intracellular reduced glutathione (GSH) was lowered in S-G cells exposed to SNAP. Pretreatment of the cells with the GSH depleter, 1,3-bis-(chloroethyl)-1-nitrosourea (BCNU), enhanced the toxicity of SNAP Similar findings of enhanced sensitivity to SNAP were noted with gingival fibroblasts and periodontal ligament cells pretreated with BCNU. The toxicity of SNAP towards the gingival epithelial cells was decreased by cotreatment with the antioxidants, N-acetyl-L-cysteine, L-ascorbic acid, and (+)-catechin. Cells exposed to SNAP exhibited nuclear aberrations, including multilobed nuclei and multinucleation. SNAP-induced cell death was apparently by apoptosis, as noted by fluorescence microscopy and DNA agarose gel electrophoresis.     

Chloroform extract of cigarette smoke induces proliferation of human esophageal squamous-cell carcinoma cells: Modulation by β-adrenoceptors

The present study aimed to delineate the actions of cigarette smoke extracts on esophageal squamous-cell carcinoma cell growth in vitro. Both chloroform- and ethanol-extracts from cigarette smoke stimulated human esophageal squamous carcinoma EC109 cell proliferation. Chloroform- and ethanol-extracts also upregulated β-adrenoceptors expression in EC109 cells. Cyclo-oxygenase-2 (COX-2) expression was increased by chloroform-extract. The stimulatory actions of chloroform-extract on cell proliferation and COX-2 expression were abolished by β₁- and β₂-adrenoceptor selective antagonists, implicating that COX-2 was downstream to the β-adrenoceptors. Collectively, the promoting action of chloroform-extract from cigarette smoke on esophageal squamous-cell carcinoma cell proliferation is β-adrenoceptor- and COX-2-dependent.     

Cytotoxicity and gene expression profiles in cell cultures exposed to whole smoke from three types of cigarettes.

The purpose of this study was to evaluate and compare the cytotoxicity and gene expression profiles in cell cultures exposed to whole smoke generated from a full flavor cigarette (Test 1), a low tar cigarette (Test 2), and an ultra-low tar cigarette (Test 3). In addition, a reference cigarette 2R4F was evaluated for cytotoxicity. Neutral red (NR) cytotoxicity assay was performed to determine relative cell death at each exposure concentration (n = 6). LC(50) was generated using wet total particular matter (WTPM), cigarette number, or nicotine concentrations. The overall order of cytotoxicity was Test 1 > 2R4F approximately Test 2 > Test 3. Cell culture samples were collected for RNA extraction at WTPM concentrations of each cigarette that gave similar nicotine concentrations. Affymetrix mouse whole genome 430 2.0 array was used to characterize the gene expression profiles for each cigarette. A total of 598 genes in Test 1, 176 genes in Test 2, and 234 genes in Test 3 samples were differentially expressed compared to the concurrent sham controls. The major biological processes associated with the changed genes in Test 1 samples were down-regulated DNA replication and cell proliferation; the same biological processes were much less affected in Test 2 and Test 3 samples. The common findings in all three cigarettes types were increased glutathione biosynthesis/consumption and inflammatory response, which are known biological effects caused by smoke exposure. The most significantly up-regulated genes were CYP1A1, GSTs, Hmox1, and Procr in smoke-exposed samples, which are either related to well-studied mechanisms of smoke exposure-related diseases or potential new biomarkers for assessing and monitoring biological effects of cigarette smoke exposure in vivo and in smokers. In summary, both the NR cytotoxicity assay and gene expression profiling were able to differentiate the three types of test cigarettes, and the results demonstrated reduced biological effects for the Test 2 and Test 3 cigarettes compared to the Test 1 cigarette in BALB/c-3T3 Cells.