Chronic Exposure to Water-Pipe Smoke Induces Alveolar Enlargement, DNA Damage and Impairment of Lung Function

Background/Aim: Epidemiological evidence indicates that water-pipe smoking (WPS) adversely affects the respiratory system. However, the mechanisms underlying its effects are not well understood. Recent experimental studies reported the occurrence of lung inflammation and oxidative stress following acute and subacute exposure to WPS. Here, we wanted to verify the extent of inflammation and oxidative stress in mice chronically-exposed to WPS and to evaluate, for the first time, its effect on alveolar injury and DNA damage and their association with impairment of lung function. Methods: Mice were nose-only exposed to mainstream WPS (30 min/day; 5 days/week for 6 consecutive months). Control mice were exposed using the same protocol to atmospheric air only. At the end of the exposure period, several respiratory parameters were assessed. Results: In bronchoalveolar lavage fluid, WPS increased neutrophil and lymphocyte numbers, lactate dehydrogenase, myeloperoxidase and matrix metallopeptidase 9 activities, as well as several proinflammatory cytokines. In lung tissue, lipid peroxidation, reactive oxygen species, superoxide dismutase activity and reduced glutathione were all increased by WPS exposure. Along with oxidative stress, WPS exposure significantly increased lung DNA damage index. Histologically the lungs of WPS-exposed mice had foci of mixed inflammatory cells infiltration in the interalveolar interstitium which consisted of neutrophils, lymphocytes and macrophages. Interestingly, we found dilated alveolar spaces and alveolar ducts with damaged interalveolar septae, and impairment of lung function following WPS exposure. Conclusion: We show the persistence of lung inflammation and oxidative stress in mice chronically-exposed to WPS and demonstrate, for the first time, the occurrence of DNA damage and enlargement of alveolar spaces and ducts associated with impairment of lung function. Our findings provide novel mechanistic elucidation for the long-term effects of WPS on the respiratory system.

[1]  A. Nemmar,et al.  Early pulmonary events of nose-only water pipe (shisha) smoking exposure in mice , 2015, Physiological reports.

[2]  H. Chami,et al.  Health effects associated with waterpipe smoking , 2015, Tobacco Control.

[3]  A. Shalaby,et al.  Reproductive Toxicity to Male Mice of Nose Only Exposure to Water- Pipe Smoke , 2015, Cellular Physiology and Biochemistry.

[4]  A. Nemmar,et al.  Short-Term Nose-Only Water-Pipe (Shisha) Smoking Exposure Accelerates Coagulation and Causes Cardiac Inflammation and Oxidative Stress in Mice , 2015, Cellular Physiology and Biochemistry.

[5]  P. Møller,et al.  Oxidative stress and inflammation generated DNA damage by exposure to air pollution particles. , 2014, Mutation research. Reviews in mutation research.

[6]  Jun She,et al.  Chinese water-pipe smoking and the risk of COPD. , 2014, Chest.

[7]  D. Moura,et al.  Cocaine induces DNA damage in distinct brain areas of female rats under different hormonal conditions , 2014, Clinical and experimental pharmacology & physiology.

[8]  A. Nemmar,et al.  Nose-only water-pipe smoking effects on airway resistance, inflammation, and oxidative stress in mice. , 2013, Journal of applied physiology.

[9]  A. Nemmar,et al.  Cardiovascular effects of nose-only water-pipe smoking exposure in mice. , 2013, American journal of physiology. Heart and circulatory physiology.

[10]  A. Condliffe,et al.  The neutrophil in chronic obstructive pulmonary disease. , 2013, American journal of respiratory cell and molecular biology.

[11]  A. Nemmar,et al.  Short-Term Effects of Nose-Only Cigarette Smoke Exposure on Glutathione Redox Homeostasis, Cytochrome P450 1A1/2 and Respiratory Enzyme Activities in Mice Tissues , 2013, Cellular Physiology and Biochemistry.

[12]  S. Al-Salam,et al.  Influence of experimental type 1 diabetes on the pulmonary effects of diesel exhaust particles in mice. , 2013, Toxicology letters.

[13]  A. Nemmar,et al.  Short-Term Systemic Effects of Nose-Only Cigarette Smoke Exposure in Mice: Role of Oxidative Stress , 2013, Cellular Physiology and Biochemistry.

[14]  K. Alzoubi,et al.  Acute exposure to waterpipe tobacco smoke induces changes in the oxidative and inflammatory markers in mouse lung , 2012, Inhalation toxicology.

[15]  M. Boskabady,et al.  Comparison of pulmonary function and respiratory symptoms in water pipe and cigarette smokers , 2012, Respirology.

[16]  Esc Press Office,et al.  Rapid urbanization as well as cultural habits explain the rise in heart disease in the Gulf States , 2012 .

[17]  A. Nemmar,et al.  Airway resistance, inflammation and oxidative stress following exposure to diesel exhaust particle in angiotensin II-induced hypertension in mice. , 2012, Toxicology.

[18]  M. Decramer,et al.  Long-term nose-only cigarette smoke exposure induces emphysema and mild skeletal muscle dysfunction in mice , 2012, Disease Models & Mechanisms.

[19]  Omer Kalayci,et al.  Oxidative Stress and Antioxidant Defense , 2012, The World Allergy Organization journal.

[20]  S. Al-Salam,et al.  Contrasting actions of diesel exhaust particles on the pulmonary and cardiovascular systems and the effects of thymoquinone , 2011, British journal of pharmacology.

[21]  G. Khayat,et al.  Chronic obstructive pulmonary disease prevalence in Lebanon: a cross-sectional descriptive study , 2011, Clinical epidemiology.

[22]  I. Rahman,et al.  Current concepts on oxidative/carbonyl stress, inflammation and epigenetics in pathogenesis of chronic obstructive pulmonary disease. , 2011, Toxicology and applied pharmacology.

[23]  H. T. Moriya,et al.  Aerobic exercise attenuates pulmonary injury induced by exposure to cigarette smoke , 2011, European Respiratory Journal.

[24]  E. Tremoli,et al.  Cytokines present in smokers' serum interact with smoke components to enhance endothelial dysfunction. , 2011, Cardiovascular research.

[25]  Y. Bentur,et al.  The acute effects of water-pipe smoking on the cardiorespiratory system. , 2011, Chest.

[26]  E. Akl,et al.  Effects of water-pipe smoking on lung function: a systematic review and meta-analysis. , 2011, Chest.

[27]  S. Kremers,et al.  Waterpipe Use Predicts Progression to Regular Cigarette Smoking Among Danish Youth , 2010, Substance use & misuse.

[28]  Thomas Eissenberg,et al.  Waterpipe tobacco and cigarette smoking: direct comparison of toxicant exposure. , 2009, American journal of preventive medicine.

[29]  J. Peters,et al.  Analysis of Pulmonary Inflammation and Function in the Mouse and Baboon after Exposure to Mycoplasma pneumoniae CARDS Toxin , 2009, PloS one.

[30]  A. Nemmar,et al.  Evaluation of the direct systemic and cardiopulmonary effects of diesel particles in spontaneously hypertensive rats. , 2009, Toxicology.

[31]  K. Chaouachi Hookah (Shisha, Narghile) Smoking and Environmental Tobacco Smoke (ETS). A Critical Review of the Relevant Literature and the Public Health Consequences , 2009, International journal of environmental research and public health.

[32]  L. C. Pôrto,et al.  Oxidative stress in mouse plasma and lungs induced by cigarette smoke and lipopolysaccharide. , 2008, Environmental research.

[33]  P. Aveyard,et al.  Waterpipe smoking in students: Prevalence, risk factors, symptoms of addiction, and smoke intake. Evidence from one British university , 2008, BMC public health.

[34]  Y. Amitai,et al.  Water-Pipe (Narghile) Smoking: An Emerging Health Risk Behavior , 2005, Pediatrics.

[35]  A. Churg,et al.  Tumor Necrosis Factor-α Drives 70% of Cigarette Smoke–induced Emphysema in the Mouse , 2004 .

[36]  R. Allen,et al.  The endothelium and cytokine secretion: the role of peroxidases as immunoregulators. , 2000, Cellular immunology.

[37]  R. Balansky,et al.  DNA alterations in rat organs after chronic exposure to cigarette smoke and/or ethanol ingestion , 1998, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[38]  C. O'connor,et al.  Elevated levels of matrix metalloproteinases in bronchoalveolar lavage fluid of emphysematous patients. , 1997, Thorax.

[39]  G. Speit,et al.  The contribution of cytotoxicity to DNA-effects in the single cell gel test (comet assay). , 1997, Toxicology letters.

[40]  C. Fjell,et al.  DNA strand breakage and DNA structure influence staining with propidium iodide using the alkaline comet assay. , 1994, Cytometry.

[41]  R. Bridges,et al.  Increased neutrophil myeloperoxidase activity associated with cigarette smoking. , 1985, European journal of respiratory diseases.

[42]  W. Maziak The global epidemic of waterpipe smoking. , 2011, Addictive behaviors.

[43]  E. Akl,et al.  Meta-analysis: A Systematic Review and Effects of Water-Pipe Smoking on Lung , 2011 .

[44]  E. Akl,et al.  Effects of WaterPipe Smoking on Lung Function , 2006 .

[45]  P Zabel,et al.  [Chronic obstructive pulmonary disease (COPD)]. , 2006, Der Internist.

[46]  A. Churg,et al.  Tumor necrosis factor-alpha drives 70% of cigarette smoke-induced emphysema in the mouse. , 2004, American journal of respiratory and critical care medicine.