Particulate matter in cigarette smoke alters iron homeostasis to produce a biological effect.

RATIONALE Lung injury after cigarette smoking is related to particle retention. Iron accumulates with the deposition of these particles. OBJECTIVES We tested the postulate that (1) injury after smoking correlates with exposure to the particulate fraction of cigarette smoke, (2) these particles alter iron homeostasis, triggering metal accumulation, and (3) this alteration in iron homeostasis affects oxidative stress and inflammation. METHODS Rats and human respiratory epithelial cells were exposed to cigarette smoke, filtered cigarette smoke, and cigarette smoke condensate (the particulate fraction of smoke), and indices of iron homeostasis, oxidative stress, and inflammatory injury were determined. Comparable measures were also evaluated in nonsmokers and smokers. MEASUREMENTS AND MAIN RESULTS After exposure of rats to cigarette smoke, increased lavage concentrations of iron and ferritin, serum ferritin levels, and nonheme iron concentrations in the lung and liver tissue all increased. Lavage ascorbate concentrations were decreased, supporting an oxidative stress. After filtering of the cigarette smoke to remove particles, most of these changes were reversed. Exposure of cultured respiratory epithelial cells to cigarette smoke condensate caused a similar accumulation of iron, metal-dependent oxidative stress, and increased IL-8 release. Lavage samples in healthy smokers and smoking patients with chronic obstructive pulmonary disease revealed elevated concentrations of both iron and ferritin relative to healthy nonsmokers. Lavage ascorbate decreased with cigarette smoking. Serum iron and ferritin levels among smokers were increased, supporting systemic accumulation of this metal after cigarette smoke exposure. CONCLUSIONS We conclude that cigarette smoke particles alter iron homeostasis, both in the lung and systemically.

[1]  Raúl San José Estépar,et al.  Gender differences in the severity of CT emphysema in COPD. , 2007, Chest.

[2]  Jennifer L. Turi,et al.  Lung injury after ozone exposure is iron dependent. , 2007, American journal of physiology. Lung cellular and molecular physiology.

[3]  Elizabeth C. Theil Coordinating responses to iron and oxygen stress with DNA and mRNA promoters: The ferritin story , 2007, BioMetals.

[4]  T. Louis,et al.  Feasibility of retinoids for the treatment of emphysema study. , 2006, Chest.

[5]  A. el-Zayadi,et al.  Heavy smoking and liver. , 2006, World journal of gastroenterology.

[6]  Kevin R. Smith,et al.  Acute pulmonary and systemic effects of inhaled coal fly ash in rats: comparison to ambient environmental particles. , 2006, Toxicological sciences : an official journal of the Society of Toxicology.

[7]  M. Inouye,et al.  Superoxide dismutase expression attenuates cigarette smoke- or elastase-generated emphysema in mice. , 2006, American journal of respiratory and critical care medicine.

[8]  A. Ghio,et al.  Disruption of Iron Homeostasis as a Mechanism of Biologic Effect by Ambient Air Pollution Particles , 2005, Inhalation toxicology.

[9]  D. Postma,et al.  and oxidative stress: a review Acute effects of cigarette smoke on inflammation , 2005 .

[10]  W. MacNee,et al.  Pulmonary and systemic oxidant/antioxidant imbalance in chronic obstructive pulmonary disease. , 2005, Proceedings of the American Thoracic Society.

[11]  R. Peto,et al.  Smoking and mortality from tuberculosis and other diseases in India: retrospective study of 43 000 adult male deaths and 35 000 controls , 2003, The Lancet.

[12]  Guilbert Jj The world health report 2002 - reducing risks, promoting healthy life. , 2003 .

[13]  C. Piantadosi,et al.  Iron uptake and Nramp2/DMT1/DCT1 in human bronchial epithelial cells. , 2002, American journal of physiology. Lung cellular and molecular physiology.

[14]  R. Pauwels,et al.  Global strategy for the diagnosis, management, and prevention of chronic obstructive pulmonary disease. NHLBI/WHO Global Initiative for Chronic Obstructive Lung Disease (GOLD) Workshop summary. , 2001, American journal of respiratory and critical care medicine.

[15]  Christine Jenkins,et al.  GOLD SCIENTIFIC COMMITTEE. GLOBAL STRATEGY FOR THE DIAGNOSIS, MANAGEMENT, AND PREVENTION OF CHRONIC OBSTRUCTIVE PULMONARY DISEASE. NHLBI/WHO GLOBAL INITIATIVE FOR CHRONIC OBSTRUCTIVE LUNG DISEASE (COLD) WORKSHOP SUMMARY , 2001 .

[16]  D. Postma,et al.  Ongoing airway inflammation in patients with COPD who do not currently smoke. , 2000, Thorax.

[17]  E. Ford,et al.  Diabetes and serum ferritin concentration among U.S. adults. , 1999, Diabetes care.

[18]  M. T. Nielsen,et al.  Tobacco : production, chemistry, and technology , 1999 .

[19]  M. Avunduk,et al.  Determinations of some trace and heavy metals in rat lenses after tobacco smoke exposure and their relationships to lens injury. , 1997, Experimental eye research.

[20]  W. Pryor Cigarette smoke radicals and the role of free radicals in chemical carcinogenicity. , 1997, Environmental health perspectives.

[21]  L. Nery,et al.  Iron stores and coagulation parameters in patients with hypoxemic polycythemia secondary to chronic obstructive pulmonary disease: the effect of phlebotomies. , 1997, Sao Paulo medical journal = Revista paulista de medicina.

[22]  G. Kabat,et al.  Aspects of the epidemiology of lung cancer in smokers and nonsmokers in the United States. , 1996, Lung cancer.

[23]  C. Piantadosi,et al.  HUMIC-LIKE SUBSTANCES IN AIR POLLUTION PARTICULATES CORRELATE WITH CONCENTRATIONS OF TRANSITION METALS AND OXIDANT GENERATION , 1996 .

[24]  W. MacNee,et al.  Role of oxidants/antioxidants in smoking-induced lung diseases. , 1996, Free radical biology & medicine.

[25]  Z. Cabantchik,et al.  Iron Acquired from Transferrin by K562 Cells Is Delivered into a Cytoplasmic Pool of Chelatable Iron(II) (*) , 1995, The Journal of Biological Chemistry.

[26]  William L. Smith,et al.  Fatty Acid Substrate Specificities of Human Prostaglandin-endoperoxide H Synthase-1 and −2 , 1995, The Journal of Biological Chemistry.

[27]  B. Skikne,et al.  Increased release of ferritin and iron by iron-loaded alveolar macrophages in cigarette smokers. , 1994, American journal of respiratory and critical care medicine.

[28]  A. Ghio,et al.  Humic-like substances in cigarette smoke condensate and lung tissue of smokers. , 1994, The American journal of physiology.

[29]  J. Eaton,et al.  Ferritin: a cytoprotective antioxidant strategem of endothelium. , 1992, The Journal of biological chemistry.

[30]  S. Rennard,et al.  Lower respiratory tract iron burden is increased in association with cigarette smoking. , 1991, The Journal of laboratory and clinical medicine.

[31]  C. D. Cox,et al.  Possible role of bacterial siderophores in inflammation. Iron bound to the Pseudomonas siderophore pyochelin can function as a hydroxyl radical catalyst. , 1990, The Journal of clinical investigation.

[32]  McGowan Se,et al.  Iron and ferritin contents and distribution in human alveolar macrophages. , 1988 .

[33]  H. Kesteloot,et al.  Environmental tobacco smoke. Measuring exposures and assessing health effects : by B. Hulka (Ed.) National Academy Press, Washington, D.C., 1986 337 pp. [pound sign]19.20 , 1987 .

[34]  McGowan Se,et al.  Iron binding, internalization, and fate in human alveolar macrophages. , 1986 .

[35]  H. Mussalo-Rauhamaa,et al.  Cigarettes as a source of some trace and heavy metals and pesticides in man. , 1986, Archives of environmental health.

[36]  S. Omaye,et al.  Simultaneous Determination of Ascorbic Acid, Isoascorbic Acid (Erythorbic Acid) and Uric Acid in Human Plasma by High-Performance Liquid Chromatography with Amperometric Detection , 1985 .

[37]  M. Anderson,et al.  Determination of glutathione and glutathione disulfide in biological samples. , 1985, Methods in enzymology.

[38]  D. Golde,et al.  Identification and Localization of Toxic Elements in Normal Human Lung Macrophages , 1981, Proceedings of the Society for Experimental Biology and Medicine. Society for Experimental Biology and Medicine.

[39]  J. Torrance Tissue iron stores , 1980 .

[40]  J. Kragten Atlas of metal-ligand equilibria in aqueous solution , 1978 .

[41]  V. N. Finelli,et al.  Effects of metal-binding fractions of tobacco smoke on in vitro activity of enzymes. , 1972, Archives of environmental health.