Advanced search
Publication Cover
Future Cardiology Volume 8, 2012 - Issue 4
Submit an article Journal homepage
7,518
Views
0
CrossRef citations to date
0
Altmetric
Review

From Particles to Patients: Oxidative Stress and the Cardiovascular Effects of Air Pollution

Mark R Miller1 BHF/University Centre for Cardiovascular Science University of Edinburgh Queens Medical Research Institute 47 Little France CrescentEdinburghEH16 4TJScotlandUK;2 BHF/University Centre for Cardiovascular Science University of Edinburgh Queens Medical Research Institute 47 Little France CrescentEdinburghEH16 4TJScotlandUK. [email protected]
,
Catherine A Shaw1 BHF/University Centre for Cardiovascular Science University of Edinburgh Queens Medical Research Institute 47 Little France CrescentEdinburghEH16 4TJScotlandUK
&
Jeremy P Langrish1 BHF/University Centre for Cardiovascular Science University of Edinburgh Queens Medical Research Institute 47 Little France CrescentEdinburghEH16 4TJScotlandUK
Pages 577-602 | Published online: 07 Aug 2012

References

  • Brook RD , RajagopalanS, PopeCAet al. 3rd Particulate matter air pollution and cardiovascular disease: an update to the scientific statement from the American Heart Association. Circulation, 121(21), 2331–2378 (2010).
  • Donaldson K , StoneV, ClouterA, RenwickL, MacNeeW. Ultrafine particles. Occup. Environ. Med., 58(3), 211–216 (2001).
  • Aitken RJ , ChaudhryMQ, BoxallAB, HullM. Manufacture and use of nanomaterials: current status in the UK and global trends. Occup. Med. (Lond.)., 56(5), 300–306 (2006).
  • Zheng M , CassGR, KeLet al. Source apportionment of daily fine particulate matter at Jefferson Street, Atlanta, GA, during summer and winter. J. Air Waste Manage. Assoc. , 57(2), 228–242 (2007).
  • Scheepers PT , BosRP. Combustion of diesel fuel from a toxicological perspective. II. Toxicity. Int. Arch. Occup. Environ. Health, 64(3), 163–177 (1992).
  • Scheepers PT , BosRP. Combustion of diesel fuel from a toxicological perspective. I. Origin of incomplete combustion products. Int. Arch. Occup. Environ. Health, 64(3), 149–161 (1992).
  • Sydbom A , BlombergA, ParniaS, StenforsN, SandstromT, DahlenSE. Health effects of diesel exhaust emissions. Eur. Respir. J., 17(4), 733–746 (2001).
  • Franchini M , MannucciPM. Thrombogenicity and cardiovascular effects of ambient air pollution. Blood, 118(9), 2405–2412 (2011).
  • Gill EA , CurlCL, AdarSDet al. Air pollution and cardiovascular disease in the multi-ethnic study of atherosclerosis. Prog. Cardiovasc. Dis. , 53(5), 353–360 (2011).
  • Mustafic H , JabreP, CaussinCet al. Main air pollutants and myocardial infarction: a systematic review and meta-analysis. JAMA , 307(7), 713–721 (2012).
  • Dockery DW , PopeCAet al. 3rd, Xu X An association between air pollution and mortality in six U.S. cities. N. Engl. J. Med., 329(24), 1753–1759 (1993).
  • Laden F , NeasLM, DockeryDW, SchwartzJ. Association of fine particulate matter from different sources with daily mortality in six U.S. cities. Environ. Health Perspect., 108(10), 941–947 (2000).
  • Pope CA et al. 3rd, Burnett RT, Thun MJ Lung cancer, cardiopulmonary mortality, and long-term exposure to fine particulate air pollution. JAMA, 287(9), 1132–1141 (2002).
  • Analitis A , KatsouyanniK, DimakopoulouKet al. Short-term effects of ambient particles on cardiovascular and respiratory mortality. Epidemiology , 17(2), 230–233 (2006).
  • Dominici F , McDermottA, ZegerSL, SametJM. Airborne particulate matter and mortality: timescale effects in four US cities. Am. J. Epidemiol., 157(12), 1055–1065 (2003).
  • Katsouyanni K . Ambient air pollution and health. Br. Med. Bull., 68, 143–156 (2003).
  • Le Tertre A , MedinaS, SamoliEet al. Short-term effects of particulate air pollution on cardiovascular diseases in eight European cities. J. Epidemiol. Community Health , 56(10), 773–779 (2002).
  • Omori T , FujimotoG, YoshimuraI, NittaH, OnoM. Effects of particulate matter on daily mortality in 13 Japanese cities. J. Epidemiol., 13(6), 314–322 (2003).
  • Ostro B , BroadwinR, GreenS, FengWY, LipsettM. Fine particulate air pollution and mortality in nine California counties: results from CALFINE. Environ. Health Perspect., 114(1), 29–33 (2006).
  • Zanobetti A , SchwartzJ. The effect of fine and coarse particulate air pollution on mortality: a national analysis. Environ. Health Perspect., 117(6), 898–903 (2009).
  • Peters A , DockeryDW, MullerJE, MittlemanMA. Increased particulate air pollution and the triggering of myocardial infarction. Circulation, 103(23), 2810–2815 (2001).
  • Bhaskaran K , HajatS, ArmstrongBet al. The effects of hourly differences in air pollution on the risk of myocardial infarction: case crossover analysis of the MINAP database. BMJ , 343, D5531 (2011).
  • Nawrot TS , PerezL, KunzliN, MuntersE, NemeryB. Public health importance of triggers of myocardial infarction: a comparative risk assessment. Lancet, 377(9767), 732–740 (2011).
  • Libby P . Inflammation in atherosclerosis. Nature, 420(6917), 868–874 (2002).
  • Ross R . Atherosclerosis – an inflammatory disease. N. Engl. J. Med, 340(2), 115–126 (1999).
  • Davignon J , GanzP. Role of endothelial dysfunction in atherosclerosis. Circulation, 109(23 Suppl. 1), III27–III32 (2004).
  • Mills NL , DonaldsonK, HadokePWet al. Adverse cardiovascular effects of air pollution. Nat. Clin. Pract. Cardiovasc. Med. , 6(1), 36–44 (2009).
  • Seaton A , MacNeeW, DonaldsonK, GoddenD. Particulate air pollution and acute health effects. Lancet, 345(8943), 176–178 (1995).
  • Geiser M , KreylingWG. Deposition and biokinetics of inhaled nanoparticles. Part. Fibre Toxicol., 7, 2 (2010).
  • Elder A , OberdorsterG. Translocation and effects of ultrafine particles outside of the lung. Clin. Occup. Environ. Med., 5(4), 785–796 (2006).
  • Schmid O , MollerW, Semmler-BehnkeMet al. Dosimetry and toxicology of inhaled ultrafine particles. Biomarkers , 14(Suppl. 1), 67–73 (2009).
  • Furuyama A , KannoS, KobayashiT, HiranoS. Extrapulmonary translocation of intratracheally instilled fine and ultrafine particles via direct and alveolar macrophage-associated routes. Arch. Toxicol., 83(5), 429–437 (2009).
  • Langrish J , FramptonM, BlombergA. Human exposure studies. In: Cardiovascular Effects of Inhaled Ultrafine and Nanosized Particles. Cassee F, Mills N, Newby D (Eds). J Wiley and Sons Inc., NJ, USA, 217–239 (2011).
  • Brook RD , BrookJR, UrchB, VincentR, RajagopalanS, SilvermanF. Inhalation of fine particulate air pollution and ozone causes acute arterial vasoconstriction in healthy adults. Circulation, 105(13), 1534–1536 (2002).
  • Brook RD , BardRL, BurnettRTet al. Differences in blood pressure and vascular responses associated with ambient fine particulate matter exposures measured at the personal versus community level. Occup. Environ. Med. , 68(3), 224–230 (2011).
  • Peretz A , SullivanJH, LeottaDFet al. Diesel exhaust inhalation elicits acute vasoconstriction in vivo. Environ. Health Perspect. , 116(7), 937–942 (2008).
  • Lundback M , MillsNL, LuckingAet al. Experimental exposure to diesel exhaust increases arterial stiffness in man. Part. Fibre Toxicol. , 6, 7 (2009).
  • Urch B , SilvermanF, CoreyPet al. Acute blood pressure responses in healthy adults during controlled air pollution exposures. Environ. Health Perspect. , 113(8), 1052–1055 (2005).
  • Devlin RB , GhioAJ, KehrlH, SandersG, CascioW. Elderly humans exposed to concentrated air pollution particles have decreased heart rate variability. Eur. Respir. J. Suppl., 40, 76S–80S (2003).
  • Gong H et al. Jr, Linn WS, Clark KW Exposures of healthy and asthmatic volunteers to concentrated ambient ultrafine particles in Los Angeles. Inhal. Toxicol., 20(6), 533–545 (2008).
  • Gong H et al. Jr, Linn WS, Sioutas C Controlled exposures of healthy and asthmatic volunteers to concentrated ambient fine particles in Los Angeles. Inhal. Toxicol., 15(4), 305–325 (2003).
  • Gong H , LinnWS, TerrellSLet al. Exposures of elderly volunteers with and without chronic obstructive pulmonary disease (COPD) to concentrated ambient fine particulate pollution. Inhal. Toxicol. , 16(11–12), 731–744 (2004).
  • Mills NL , FinlaysonAE, GonzalezMCet al. Diesel exhaust inhalation does not affect heart rhythm or heart rate variability. Heart , 97(7), 544–550 (2011).
  • Mills NL , TornqvistH, GonzalezMCet al. Ischemic and thrombotic effects of dilute diesel-exhaust inhalation in men with coronary heart disease. N. Engl. J. Med. , 357(11), 1075–1082 (2007).
  • Chuang KJ , CoullBA, ZanobettiAet al. Particulate air pollution as a risk factor for ST-segment depression in patients with coronary artery disease. Circulation , 118(13), 1314–1320 (2008).
  • Gold DR , LitonjuaAA, ZanobettiAet al. Air pollution and ST-segment depression in elderly subjects. Environ. Health Perspect. , 113(7), 883–887 (2005).
  • Lanki T et al. , de Hartog JJ, Heinrich J Can we identify sources of fine particles responsible for exercise-induced ischemia on days with elevated air pollution? The ULTRA study. Environ. Health Perspect., 114(5), 655–660 (2006).
  • Lanki T , HoekG, TimonenKLet al. Hourly variation in fine particle exposure is associated with transiently increased risk of ST segment depression. Occup. Environ. Med. , 65(11), 782–786 (2008).
  • Pekkanen J , PetersA, HoekGet al. Particulate air pollution and risk of ST-segment depression during repeated submaximal exercise tests among subjects with coronary heart disease: the exposure and risk assessment for fine and ultrafine particles in ambient air (ULTRA) study. Circulation , 106(8), 933–938 (2002).
  • Brook RD , UrchB, DvonchJTet al. Insights into the mechanisms and mediators of the effects of air pollution exposure on blood pressure and vascular function in healthy humans. Hypertension , 54(3), 659–667 (2009).
  • Mills NL , TornqvistH, RobinsonSDet al. Diesel exhaust inhalation causes vascular dysfunction and impaired endogenous fibrinolysis. Circulation , 112(25), 3930–3936 (2005).
  • Tornqvist H , MillsNL, GonzalezMet al. Persistent endothelial dysfunction in humans after diesel exhaust inhalation. Am. J. Respir. Crit. Care Med. , 176(4), 395–400 (2007).
  • Mills NL , MillerMR, LuckingAJet al. Combustion-derived nanoparticulate induces the adverse vascular effects of diesel exhaust inhalation. Eur. Heart J. , 32(21), 2660–2671 (2011).
  • Lucking AJ , LundbackM, MillsNLet al. Diesel exhaust inhalation increases thrombus formation in man. Eur. Heart J. , 29(24), 3043–3051 (2008).
  • Hoffmann B , MoebusS, MohlenkampSet al. Residential exposure to traffic is associated with coronary atherosclerosis. Circulation , 116(5), 489–496 (2007).
  • Kunzli N , JerrettM, MackWJet al. Ambient air pollution and atherosclerosis in Los Angeles. Environ. Health Perspect. , 113(2), 201–206 (2005).
  • Bauer M , MoebusS, MohlenkampSet al. Urban particulate matter air pollution is associated with subclinical atherosclerosis: results from the HNR (Heinz Nixdorf Recall) study. J. Am. Coll. Cardiol. , 56(22), 1803–1808 (2010).
  • Kunzli N , JerrettM, Garcia-EstebanRet al. Ambient air pollution and the progression of atherosclerosis in adults. PLoS ONE , 5(2), e9096 (2010).
  • Brown DM , DonaldsonK, BormPJet al. Calcium and ROS-mediated activation of transcription factors and TNF-α cytokine gene expression in macrophages exposed to ultrafine particles. Am. J. Physiol. , 286(2), L344–L353 (2004).
  • Donaldson K , MillsN, MacNeeW, RobinsonS, NewbyD. Role of inflammation in cardiopulmonary health effects of PM. Toxicol. Appl. Pharmacol., 207(Suppl. 2), 483–488 (2005).
  • Nel AE , Diaz-SanchezD, LiN. The role of particulate pollutants in pulmonary inflammation and asthma: evidence for the involvement of organic chemicals and oxidative stress. Curr. Opin. Pulm. Med., 7(1), 20–26 (2001).
  • Lim KG , MottramC. The use of fraction of exhaled nitric oxide in pulmonary practice. Chest, 133(5), 1232–1242 (2008).
  • Delfino RJ , StaimerN, TjoaTet al. Associations of primary and secondary organic aerosols with airway and systemic inflammation in an elderly panel cohort. Epidemiology , 21(6), 892–902 (2010).
  • Chuang KJ , ChanCC, SuTC, LeeCT, TangCS. The effect of urban air pollution on inflammation, oxidative stress, coagulation, and autonomic dysfunction in young adults. Am. J. Respir. Crit. Care Med., 176(4), 370–376 (2007).
  • Shigenaga MK , AmesBN. Assays for 8-hydroxy-2´-deoxyguanosine: a biomarker of in vivo oxidative DNA damage. Free Radic. Biol. Med., 10(3–4), 211–216 (1991).
  • Ren C , FangS, WrightRO, SuhH, SchwartzJ. Urinary 8-hydroxy-2´-deoxyguanosine as a biomarker of oxidative DNA damage induced by ambient pollution in the normative aging study. Occup. Environ. Med., 68(8), 562–569 (2011).
  • Bagryantseva Y , NovotnaB, RossnerPet al. Jr Oxidative damage to biological macromolecules in Prague bus drivers and garagemen: impact of air pollution and genetic polymorphisms. Toxicol. Lett., 199(1), 60–68 (2010).
  • Rossner P Jr, Rossnerova A, Sram RJ. Oxidative stress and chromosomal aberrations in an environmentally exposed population. Mutat. Res., 707(1–2), 34–41 (2011).
  • Bae S , PanXC, KimSYet al. Exposures to particulate matter and polycyclic aromatic hydrocarbons and oxidative stress in schoolchildren. Environ. Health Perspect. , 118(4), 579–583 (2010).
  • Sorensen M , DaneshvarB, HansenMet al. Personal PM2.5 exposure and markers of oxidative stress in blood. Environ. Health Perspect. , 111(2), 161–166 (2003).
  • Liu L , RuddyT, DalipajMet al. Effects of indoor, outdoor, and personal exposure to particulate air pollution on cardiovascular physiology and systemic mediators in seniors. J. Occup. Environ. Med. , 51(9), 1088–1098 (2009).
  • Mordukhovich I , WilkerE, SuhHet al. Black carbon exposure, oxidative stress genes, and blood pressure in a repeated-measures study. Environ. Health Perspect. , 117(11), 1767–1772 (2009).
  • Delfino RJ , StaimerN, TjoaTet al. Circulating biomarkers of inflammation, antioxidant activity, and platelet activation are associated with primary combustion aerosols in subjects with coronary artery disease. Environ. Health Perspect. , 116(7), 898–906 (2008).
  • Behndig AF , MudwayIS, BrownJLet al. Airway antioxidant and inflammatory responses to diesel exhaust exposure in healthy humans. Eur. Respir. J. , 27(2), 359–365 (2006).
  • Mudway IS , StenforsN, DugganSTet al. An in vitro and in vivo investigation of the effects of diesel exhaust on human airway lining fluid antioxidants. Arch. Biochem. Biophys. , 423(1), 200–212 (2004).
  • Mills NL , RobinsonSD, FokkensPHet al. Exposure to concentrated ambient particles does not affect vascular function in patients with coronary heart disease. Environ. Health Perspect. , 116(6), 709–715 (2008).
  • Peretz A , PeckEC, BammlerTKet al. Diesel exhaust inhalation and assessment of peripheral blood mononuclear cell gene transcription effects: an exploratory study of healthy human volunteers. Inhal. Toxicol. , 19(14), 1107–1119 (2007).
  • Brauner EV , ForchhammerL, MollerPet al. Indoor particles affect vascular function in the aged: an air filtration-based intervention study. Am. J. Respir. Crit. Care Med. , 177(4), 419–425 (2008).
  • Allen RW , CarlstenC, KarlenBet al. An air filter intervention study of endothelial function among healthy adults in a woodsmoke-impacted community. Am. J. Respir. Crit. Care Med. , 183(9), 1222–1230 (2011).
  • Allen J , TrengaCA, PeretzA, SullivanJH, CarlstenCC, KaufmanJD. Effect of diesel exhaust inhalation on antioxidant and oxidative stress responses in adults with metabolic syndrome. Inhal. Toxicol., 21(13), 1061–1067 (2009).
  • Gilliland FD , LiYF, SaxonA, Diaz-SanchezD. Effect of glutathione-S-transferase M1 and P1 genotypes on xenobiotic enhancement of allergic responses: randomised, placebo-controlled crossover study. Lancet, 363(9403), 119–125 (2004).
  • Kipen HM , GandhiS, RichDQet al. Acute decreases in proteasome pathway activity after inhalation of fresh diesel exhaust or secondary organic aerosol. Environ. Health Perspect. , 119(5), 658–663 (2011).
  • Moller P , LoftS. Oxidative damage to DNA and lipids as biomarkers of exposure to air pollution. Environ. Health Perspect., 118(8), 1126–1136 (2010).
  • Okayama Y , KuwaharaM, SuzukiAK, TsuboneH. Role of reactive oxygen species on diesel exhaust particle-induced cytotoxicity in rat cardiac myocytes. J. Toxicol. Environ. Health Part A, 69(18), 1699–1710 (2006).
  • Ikeda M , SuzukiM, WataraiK, SagaiM, TomitaT. Impairment of endothelium-dependent relaxation by diesel exhaust particles in rat thoracic aorta. Jpn J. Pharmacol., 68(2), 183–189 (1995).
  • Stoeger T , TakenakaS, FrankenbergerBet al. Deducing in vivo toxicity of combustion-derived nanoparticles from a cell-free oxidative potency assay and metabolic activation of organic compounds. Environ. Health Perspect. , 117(1), 54–60 (2009).
  • Aam BB , FonnumF. ROS scavenging effects of organic extract of diesel exhaust particles on human neutrophil granulocytes and rat alveolar macrophages. Toxicology, 230(2–3), 207–218 (2007).
  • Miller MR , BorthwickSJ, ShawCAet al. Direct impairment of vascular function by diesel exhaust particulate through reduced bioavailability of endothelium-derived nitric oxide induced by superoxide free radicals. Environ. Health Perspect. , 117(4), 611–616 (2009).
  • Salonen RO , HalinenAI, PennanenASet al. Chemical and in vitro toxicologic characterization of wintertime and springtime urban-air particles with an aerodynamic diameter below 10 microm in Helsinki. Scand. J. Work Environ. Health , 30(Suppl. 2), 80–90 (2004).
  • Kumagai Y , TairaJ, SagaiM. Apparent inhibition of superoxide dismutase activity in vitro by diesel exhaust particles. Free Radic. Biol. Med., 18(2), 365–371 (1995).
  • Sagai M , SaitoH, IchinoseT, KodamaM, MoriY. Biological effects of diesel exhaust particles. I. In vitro production of superoxide and in vivo toxicity in mouse. Free Radic. Biol. Med., 14(1), 37–47 (1993).
  • Healey K , SmithEC, WildCP, RoutledgeMN. The mutagenicity of urban particulate matter in an enzyme free system is associated with the generation of reactive oxygen species. Mutat. Res., 602(1–2), 1–6 (2006).
  • Muto E , HayashiT, YamadaK, EsakiT, SagaiM, IguchiA. Endothelial-constitutive nitric oxide synthase exists in airways and diesel exhaust particles inhibit the effect of nitric oxide. Life Sci., 59(18), 1563–1570 (1996).
  • Alaghmand M , BloughNV. Source-dependent variation in hydroxyl radical production by airborne particulate matter. Environ. Sci. Technol., 41(7), 2364–2370 (2007).
  • Prahalad AK , InmonJ, DaileyLA, MaddenMC, GhioAJ, GallagherJE. Air pollution particles mediated oxidative DNA base damage in a cell free system and in human airway epithelial cells in relation to particulate metal content and bioreactivity. Chem. Res. Toxicol., 14(7), 879–887 (2001).
  • Shi T , DuffinR, BormPJ, LiH, WeishauptC, SchinsRP. Hydroxyl-radical-dependent DNA damage by ambient particulate matter from contrasting sampling locations. Environ. Res., 101(1), 18–24 (2006).
  • Shaw CA , RobertsonS, MillerMRet al. Diesel exhaust particulate – exposed macrophages cause marked endothelial cell activation. Am. J. Respir. Cell. Mol. Biol. , 44(6), 840–851 (2011).
  • Hirano S , FuruyamaA, KoikeE, KobayashiT. Oxidative-stress potency of organic extracts of diesel exhaust and urban fine particles in rat heart microvessel endothelial cells. Toxicology, 187(2–3), 161–170 (2003).
  • Sumanasekera WK , IvanovaMM, JohnstonBJet al. Rapid effects of diesel exhaust particulate extracts on intracellular signaling in human endothelial cells. Toxicol. Lett. , 174(1–3), 61–73 (2007).
  • Sun Q , YueP, KirkRIet al. Ambient air particulate matter exposure and tissue factor expression in atherosclerosis. Inhal. Toxicol. , 20(2), 127–137 (2008).
  • Mills NL , MillerMR. Particles and the vascular endothelium. In: Cardiovascular Effects of Inhaled Ultrafine and Nanosized Particles. Cassee FR, Mills NL, Newby DE (Eds). J Wiley and Sons Inc., NJ, USA 379–402 (2011).
  • Jimenez LA , DrostEM, GilmourPSet al. PM(10)-exposed macrophages stimulate a proinflammatory response in lung epithelial cells via TNF-α. Am. J. Physiol. , 282(2), L237–L248 (2002).
  • Chio CP , ChenSC, ChiangKC, ChouWC, LiaoCM. Oxidative stress risk analysis for exposure to diesel exhaust particle-induced reactive oxygen species. Sci. Total Environ., 387(1–3), 113–127 (2007).
  • Ohyama M , OtakeT, AdachiS, KobayashiT, MorinagaK. A comparison of the production of reactive oxygen species by suspended particulate matter and diesel exhaust particles with macrophages. Inhal. Toxicol., 19(Suppl. 1), 157–160 (2007).
  • Bai Y , SuzukiAK, SagaiM. The cytotoxic effects of diesel exhaust particles on human pulmonary artery endothelial cells in vitro: role of active oxygen species. Free Radic. Biol. Med., 30(5), 555–562 (2001).
  • Li R , NingZ, CuiJet al. Ultrafine particles from diesel engines induce vascular oxidative stress via JNK activation. Free Radic. Biol. Med. , 46(6), 775–782 (2009).
  • Li R , NingZ, MajumdarRet al. Ultrafine particles from diesel vehicle emissions at different driving cycles induce differential vascular pro-inflammatory responses: Implication of chemical components and NF-κB signalling. Part. Fibre Toxicol. , 7, 6 (2010).
  • Montiel-Davalos A , Ibarra-Sanchez Mde J, Ventura-Gallegos JL, Alfaro-Moreno E, Lopez-Marure R. Oxidative stress and apoptosis are induced in human endothelial cells exposed to urban particulate matter. Toxicol. In Vitro, 24(1), 135–141 (2010).
  • Furuyama A , HiranoS, KoikeE, KobayashiT. Induction of oxidative stress and inhibition of plasminogen activator inhibitor-1 production in endothelial cells following exposure to organic extracts of diesel exhaust particles and urban fine particles. Arch. Toxicol., 80(3), 154–162 (2006).
  • Karoly ED , LiZ, DaileyLA, HyseniX, HuangYC. Up-regulation of tissue factor in human pulmonary artery endothelial cells after ultrafine particle exposure. Environ. Health Perspect., 115(4), 535–540 (2007).
  • van Eeden SF , TanWC, SuwaTet al. Cytokines involved in the systemic inflammatory response induced by exposure to particulate matter air pollutants (PM(10)). Am. J. Respir. Crit. Care Med. , 164(5), 826–830 (2001).
  • Fujii T , HayashiS, HoggJCet al. Interaction of alveolar macrophages and airway epithelial cells following exposure to particulate matter produces mediators that stimulate the bone marrow. Am. J. Respir. Cell. Mol. Biol. , 27(1), 34–41 (2002).
  • Kristovich R , KnightDA, LongJF, WilliamsMV, DuttaPK, WaldmanWJ. Macrophage-mediated endothelial inflammatory responses to airborne particulates: impact of particulate physicochemical properties. Chem. Res. Toxicol., 17(10), 1303–1312 (2004).
  • Bachoual R , BoczkowskiJ, GovenDet al. Biological effects of particles from the Paris subway system. Chem. Res. Toxicol. , 20(10), 1426–1433 (2007).
  • Alfaro-Moreno E , MartinezL, Garcia-CuellarCet al. Biologic effects induced in vitro by PM10 from three different zones of Mexico City. Environ. Health Perspect. , 110(7), 715–720 (2002).
  • Frikke-Schmidt H , RoursgaardM, LykkesfeldtJ, LoftS, NojgaardJK, MollerP. Effect of vitamin C and iron chelation on diesel exhaust particle and carbon black induced oxidative damage and cell adhesion molecule expression in human endothelial cells. Toxicol. Lett., 203(3), 181–189 (2011).
  • Aung HH , LameMW, GohilKet al. Comparative gene responses to collected ambient particles in vitro: endothelial responses. Physiol. Genomics , 43(15), 917–929 (2011).
  • Kafoury RM , MaddenMC. Diesel exhaust particles induce the over expression of tumor necrosis factor-α (TNF-α) gene in alveolar macrophages and failed to induce apoptosis through activation of nuclear factor-κB (NF-κB). Int. J. Environ. Res. Public Health, 2(1), 107–113 (2005).
  • Lindbom J , GustafssonM, BlomqvistGet al. Exposure to wear particles generated from studded tires and pavement induces inflammatory cytokine release from human macrophages. Chem. Res. Toxicol. , 19(4), 521–530 (2006).
  • Imrich A , NingY, LawrenceJet al. Alveolar macrophage cytokine response to air pollution particles: oxidant mechanisms. Toxicol. Appl. Pharmacol. , 218(3), 256–264 (2007).
  • Mo Y , WanR, ChienS, TollerudDJ, ZhangQ. Activation of endothelial cells after exposure to ambient ultrafine particles: the role of NADPH oxidase. Toxicol. Appl. Pharmacol., 236(2), 183–193 (2009).
  • Cheng YW , KangJJ. Inhibition of agonist-induced vasocontraction and impairment of endothelium-dependent vasorelaxation by extract of motorcycle exhaust particles in vitro. J. Toxicol. Environ. Health A, 57(2), 75–87 (1999).
  • Courtois A , AndujarP, LadeiroYet al. Impairment of NO-dependent relaxation in intralobar pulmonary arteries: comparison of urban particulate matter and manufactured nanoparticles. Environ. Health Perspect. , 116(10), 1294–1299 (2008).
  • Knaapen AM , den Hartog GJ, Bast A, Borm PJ. Ambient particulate matter induces relaxation of rat aortic rings in vitro. Hum. Exp. Toxicol., 20(5), 259–265 (2001).
  • Tzeng HP , YangRS, UengTH, Lin-ShiauSY, LiuSH. Motorcycle exhaust particulates enhance vasoconstriction in organ culture of rat aortas and involve reactive oxygen species. Toxicol. Sci., 75(1), 66–73 (2003).
  • Knuckles TL , LundAK, LucasSN, CampenMJ. Diesel exhaust exposure enhances venoconstriction via uncoupling of eNOS. Toxicol Appl. Pharmacol., 230(3), 346–351 (2008).
  • Proctor SD , DreherKL, KellySE, RussellJC. Hypersensitivity of prediabetic JCR:LA-cp rats to fine airborne combustion particle-induced direct and noradrenergic-mediated vascular contraction. Toxicol. Sci., 90(2), 385–391 (2006).
  • Hartz AM , BauerB, BlockML, HongJS, MillerDS. Diesel exhaust particles induce oxidative stress, proinflammatory signaling, and P-glycoprotein up-regulation at the blood–brain barrier. FASEB J., 22(8), 2723–2733 (2008).
  • Campen MJ , BabuNS, HelmsGAet al. Nonparticulate components of diesel exhaust promote constriction in coronary arteries from ApoE-/- mice. Toxicol. Sci. , 88(1), 95–102 (2005).
  • Sun Y , TaguchiK, SumiD, YamanoS, KumagaiY. Inhibition of endothelial nitric oxide synthase activity and suppression of endothelium-dependent vasorelaxation by 1,2-naphthoquinone, a component of diesel exhaust particles. Arch. Toxicol., 80(5), 280–285 (2006).
  • Stampfl A , MaierM, RadykewiczR, ReitmeirP, GottlicherM, NiessnerR. Langendorff heart: a model system to study cardiovascular effects of engineered nanoparticles. ACS Nano, 5(7), 5345–5353 (2011).
  • Radomski A , JuraszP, Alonso-EscolanoDet al. Nanoparticle-induced platelet aggregation and vascular thrombosis. Br. J. Pharmacol. , 146(6), 882–893 (2005).
  • Nemmar A , ZiaS, SubramaniyanD, FahimMA, AliBH. Exacerbation of thrombotic events by diesel exhaust particle in mouse model of hypertension. Toxicology, 285(1–2), 39–45 (2011).
  • Kilinc E et al. , Van Oerle R, Borissoff JI Factor XII activation is essential to sustain the procoagulant effects of particulate matter. J. Thromb. Haemost., 9(7), 1359–1367 (2011).
  • Nemmar A , Al-SalamS, ZiaSet al. Contrasting actions of diesel exhaust particles on the pulmonary and cardiovascular systems and the effects of thymoquinone. Br. J. Pharmacol. , 164(7), 1871–1882 (2011).
  • Metassan S , CharltonAJ, RoutledgeMN, ScottDJ, AriensRA. Alteration of fibrin clot properties by ultrafine particulate matter. Thromb. Haemost., 103(1), 103–113 (2010).
  • Nurkiewicz TR , PorterDW, BargerMet al. Systemic microvascular dysfunction and inflammation after pulmonary particulate matter exposure. Environ. Health Perspect. , 114(3), 412–419 (2006).
  • Nemmar A , DhanasekaranS, YasinJet al. Evaluation of the direct systemic and cardiopulmonary effects of diesel particles in spontaneously hypertensive rats. Toxicology , 262(1), 50–56 (2009).
  • Chang CC , HwangJS, ChanCC, ChengTJ. Interaction effects of ultrafine carbon black with iron and nickel on heart rate variability in spontaneously hypertensive rats. Environ. Health Perspect., 115(7), 1012–1017 (2007).
  • Zhao J , CaoQ, QianXet al. Acute effects of fine particle on cardiovascular system of rats. Wei Sheng Yan Jiu , 36(4), 417–420 (2007).
  • Upadhyay S , GangulyK, StoegerTet al. Cardiovascular and inflammatory effects of intratracheally instilled ambient dust from Augsburg, Germany, in spontaneously hypertensive rats (SHRs). Part. Fibre Toxicol. , 7, 27 (2010).
  • Bartoli CR , WelleniusGA, DiazEAet al. Mechanisms of inhaled fine particulate air pollution-induced arterial blood pressure changes. Environ. Health Perspect. , 117(3), 361–366 (2009).
  • Ghio AJ , HuangYC. Exposure to concentrated ambient particles (CAPs): a review. Inhal. Toxicol., 16(1), 53–59 (2004).
  • McQueen DS , DonaldsonK, BondSMet al. Bilateral vagotomy or atropine pre-treatment reduces experimental diesel-soot induced lung inflammation. Toxicol. Appl. Pharmacol. , 219(1), 62–71 (2007).
  • Elder A , CoudercJP, GeleinRet al. Effects of on-road highway aerosol exposures on autonomic responses in aged, spontaneously hypertensive rats. Inhal. Toxicol. , 19(1), 1–12 (2007).
  • Rhoden CR , WelleniusGA, GhelfiE, LawrenceJ, Gonzalez-FlechaB. PM-induced cardiac oxidative stress and dysfunction are mediated by autonomic stimulation. Biochim. Biophys. Acta, 1725(3), 305–313 (2005).
  • Wellenius GA , SaldivaPH, BatalhaJRet al. Electrocardiographic changes during exposure to residual oil fly ash (ROFA) particles in a rat model of myocardial infarction. Toxicol. Sci. , 66(2), 327–335 (2002).
  • Xu X , KheradaN, HongXet al. Diesel exhaust exposure induces angiogenesis. Toxicol. Lett. , 191(1), 57–68 (2009).
  • O‘Toole TE , HellmannJ, WheatLet al. Episodic exposure to fine particulate air pollution decreases circulating levels of endothelial progenitor cells. Circ. Res. , 107(2), 200–203 (2010).
  • Xu X , YavarZ, VerdinMet al. Effect of early particulate air pollution exposure on obesity in mice: role of p47phox. Arterioscler. Thromb. Vasc. Biol. , 30(12), 2518–2527 (2010).
  • Sun Q , YueP, DeiuliisJAet al. Ambient air pollution exaggerates adipose inflammation and insulin resistance in a mouse model of diet-induced obesity. Circulation , 119(4), 538–546 (2009).
  • Maresh JG , CampenMJ, ReedMD, DarrowAL, ShohetRV. Hypercholesterolemia potentiates aortic endothelial response to inhaled diesel exhaust. Inhal. Toxicol., 23(1), 1–10 (2011).
  • Tamagawa E , BaiN, MorimotoKet al. Particulate matter exposure induces persistent lung inflammation and endothelial dysfunction. Am. J. Physiol. , 295(1), L79–L85 (2008).
  • Ying Z , YueP, XuXet al. Air pollution and cardiac remodeling: a role for RhoA/Rho-kinase. Am. J. Physiol. , 296(5), H1540–H1550 (2009).
  • Cozzi E , HazarikaS, StallingsHWet al. 3rd Ultrafine particulate matter exposure augments ischemia-reperfusion injury in mice. Am. J. Physiol., 291(2), H894–H903 (2006).
  • Vesterdal LK , FolkmannJK, JacobsenNRet al. Pulmonary exposure to carbon black nanoparticles and vascular effects. Part. Fibre Toxicol. , 7, 33 (2010).
  • Ying Z , KampfrathT, ThurstonGet al. Ambient particulates alter vascular function through induction of reactive oxygen and nitrogen species. Toxicol. Sci. , 111(1), 80–88 (2009).
  • Moller P , MikkelsenL, VesterdalLKet al. Hazard identification of particulate matter on vasomotor dysfunction and progression of atherosclerosis. Crit. Rev. Toxicol. , 41(4), 339–368 (2011).
  • Cherng TW , PaffettML, Jackson-WeaverO, CampenMJ, WalkerBR, KanagyNL. Mechanisms of diesel-induced endothelial nitric oxide synthase dysfunction in coronary arterioles. Environ. Health Perspect., 119(1), 98–103 (2011).
  • Nemmar A , Al-SalamS, DhanasekaranS, SudhadeviM, AliBH. Pulmonary exposure to diesel exhaust particles promotes cerebral microvessel thrombosis: protective effect of a cysteine prodrug l-2-oxothiazolidine-4-carboxylic acid. Toxicology, 263(2–3), 84–92 (2009).
  • Nurkiewicz TR , PorterDW, BargerM, CastranovaV, BoegeholdMA. Particulate matter exposure impairs systemic microvascular endothelium-dependent dilation. Environ. Health Perspect., 112(13), 1299–1306 (2004).
  • Dvonch JT , BrookRD, KeelerGJet al. Effects of concentrated fine ambient particles on rat plasma levels of asymmetric dimethylarginine. Inhal. Toxicol. , 16(6–7), 473–480 (2004).
  • Wan G , RajagopalanS, SunQ, ZhangK. Real-world exposure of airborne particulate matter triggers oxidative stress in an animal model. Int. J. Physiol. Pathophysiol. Pharmacol., 2(1), 64–68 (2010).
  • Ghelfi E , WelleniusGA, LawrenceJ, MilletE, Gonzalez-FlechaB. Cardiac oxidative stress and dysfunction by fine concentrated ambient particles (CAPs) are mediated by angiotensin-II. Inhal. Toxicol., 22(11), 963–972 (2010).
  • Gurgueira SA , LawrenceJ, CoullB, MurthyGG, Gonzalez-FlechaB. Rapid increases in the steady-state concentration of reactive oxygen species in the lungs and heart after particulate air pollution inhalation. Environ. Health Perspect., 110(8), 749–755 (2002).
  • Sun Q , WangA, JinXet al. Long-term air pollution exposure and acceleration of atherosclerosis and vascular inflammation in an animal model. JAMA , 294(23), 3003–3010 (2005).
  • Lund AK , KnucklesTLet al., Obot Akata C Gasoline exhaust emissions induce vascular remodeling pathways involved in atherosclerosis. Toxicol. Sci., 95(2), 485–494 (2007).
  • Lund AK , LuceroJ, HarmanMet al. The oxidized low-density lipoprotein receptor mediates vascular effects of inhaled vehicle emissions. Am. J. Respir. Crit. Care Med. , 184(1), 82–91 (2011).
  • Damaceno-Rodrigues NR , VerasMM, NegriEMet al. Effect of pre- and postnatal exposure to urban air pollution on myocardial lipid peroxidation levels in adult mice. Inhal. Toxicol. , 21(13), 1129–1137 (2009).
  • Bai N , KidoT, SuzukiHet al. Changes in atherosclerotic plaques induced by inhalation of diesel exhaust. Atherosclerosis , 216(2), 299–306 (2011).
  • Bai N , KidoT, KavanaghTJet al. Exposure to diesel exhaust up-regulates iNOS expression in ApoE knockout mice. Toxicol. Appl. Pharmacol. , 255(2), 184–192 (2011).
  • Gong KW , ZhaoW, LiNet al. Air-pollutant chemicals and oxidized lipids exhibit genome-wide synergistic effects on endothelial cells. Genome Biol. , 8(7), R149 (2007).
  • Araujo JA , BarajasB, KleinmanMet al. Ambient particulate pollutants in the ultrafine range promote early atherosclerosis and systemic oxidative stress. Circ. Res. , 102(5), 589–596 (2008).
  • Kampfrath T , MaiseyeuA, YingZet al. Chronic fine particulate matter exposure induces systemic vascular dysfunction via NADPH oxidase and TLR4 pathways. Circ. Res. , 108(6), 716–726 (2011).
  • Ulrich MM , AlinkGM, KumarathasanP, VincentR, BoereAJ, CasseeFR. Health effects and time course of particulate matter on the cardiopulmonary system in rats with lung inflammation. J. Toxicol. Environ. Health A., 65(20), 1571–1595 (2002).
  • Lund AK , LuceroJ, LucasSet al. Vehicular emissions induce vascular MMP-9 expression and activity associated with endothelin-1-mediated pathways. Arterioscler. Thromb. Vasc. Biol. , 29(4), 511–517 (2009).
  • Sun Q , YueP, YingZet al. Air pollution exposure potentiates hypertension through reactive oxygen species-mediated activation of Rho/ROCK. Arterioscler. Thromb. Vascular. Biol. , 28(10), 1760–1766 (2008).
  • Gottipolu RR , WallenbornJG, KarolyEDet al. One-month diesel exhaust inhalation produces hypertensive gene expression pattern in healthy rats. Environ. Health Perspect. , 117(1), 38–46 (2009).
  • Suwa T , HoggJC, QuinlanKB, OhgamiA, VincentR, van Eeden SF. Particulate air pollution induces progression of atherosclerosis. J. Am. Coll. Cardiol., 39(6), 935–942 (2002).
  • Araujo JA , NelAE. Particulate matter and atherosclerosis: role of particle size, composition and oxidative stress. Part. Fibre Toxicol., 6, 24 (2009).
  • Sun Q , HongX, WoldLE. Cardiovascular effects of ambient particulate air pollution exposure. Circulation, 121(25), 2755–2765 (2010).
  • Yatera K , HsiehJ, HoggJCet al. Particulate matter air pollution exposure promotes recruitment of monocytes into atherosclerotic plaques. Am. J. Physiol. , 294(2), H944–H953 (2008).
  • Tranfield EM , van Eeden SF, Yatera K, Hogg JC, Walker DC. Ultrastructural changes in atherosclerotic plaques following the instillation of airborne particulate matter into the lungs of rabbits. Can. J. Cardiol., 26(7), E258–E269 (2010).
  • Kido T , BaiN, YateraKet al. Diesel exhaust inhalation induces heat shock protein 70 expression in vivo. Inhal. Toxicol. , 23(10), 593–601 (2011).
  • Ikeda M , ShitashigeM, YamasakiH, SagaiM, TomitaT. Oxidative modification of low density lipoprotein by diesel exhaust particles. Biol. Pharm. Bull., 18(6), 866–871 (1995).
  • Soares SR , Carvalho-OliveiraR, Ramos-SanchezEet al. Air pollution and antibodies against modified lipoproteins are associated with atherosclerosis and vascular remodeling in hyperlipemic mice. Atherosclerosis , 207(2), 368–373 (2009).
  • Campen MJ , LundAK, KnucklesTLet al. Inhaled diesel emissions alter atherosclerotic plaque composition in ApoE(-/-) mice. Toxicol. Appl. Pharmacol. , 242(3), 310–317 (2010).
  • Lucking AJ , LundbackM, BarathSLet al. Particle traps prevent adverse vascular and prothrombotic effects of diesel engine exhaust inhalation in men. Circulation. , 123(16), 1721–1728 (2011).
  • Quan C , SunQ, LippmannM, ChenLC. Comparative effects of inhaled diesel exhaust and ambient fine particles on inflammation, atherosclerosis, and vascular dysfunction. Inhal. Toxicol., 22(9), 738–753 (2010).
  • Singh P , DeMariniDM, DickCAet al. Sample characterization of automobile and forklift diesel exhaust particles and comparative pulmonary toxicity in mice. Environ. Health Perspect. , 112(8), 820–825 (2004).
  • DeMarini DM , BrooksLR, WarrenSH, KobayashiT, GilmourMI, SinghP. Bioassay-directed fractionation and Salmonella mutagenicity of automobile and forklift diesel exhaust particles. Environ. Health Perspect., 112(8), 814–819 (2004).
  • Niwa Y , HiuraY, MurayamaT, YokodeM, IwaiN. Nano-sized carbon black exposure exacerbates atherosclerosis in LDL-receptor knockout mice. Circ. J., 71(7), 1157–1161 (2007).
  • Upadhyay S , StoegerT, HarderVet al. Exposure to ultrafine carbon particles at levels below detectable pulmonary inflammation affects cardiovascular performance in spontaneously hypertensive rats. Part. Fibre Toxicol. , 5, 19 (2008).
  • Nurkiewicz TR , PorterDW, HubbsAFet al. Pulmonary nanoparticle exposure disrupts systemic microvascular nitric oxide signaling. Toxicol. Sci. , 110(1), 191–203 (2009).
  • Elder AC , GeleinR, AzadnivM, FramptonM, FinkelsteinJ, OberdorsterG. Systemic effects of inhaled ultrafine particles in two compromised, aged rat strains. Inhal. Toxicol., 16(6–7), 461–471 (2004).
  • Clancy L , GoodmanP, SinclairH, DockeryD. Effect of air-pollution control on death rates in Dublin, Ireland: an intervention study. Lancet, 360, 1210–1214 (2002).
  • Pell JP , HawS, CobbeSet al. Smoke-free legislation and hospitalizations for acute coronary syndrome. N. Engl. J. Med. , 359(5), 482–491 (2008).
  • Meyers DG , NeubergerJS, HeJ. Cardiovascular effect of bans on smoking in public places: a systematic review and meta-analysis. J. Am. Coll. Cardiol., 54(14), 1249–1255 (2009).
  • Schwartz J , ParkSK, O‘NeillMSet al. Glutathione-S-transferase M1, obesity, statins, and autonomic effects of particles: gene-by-drug-by-environment interaction. Am. J. Respir. Crit. Care Med. , 172(12), 1529–1533 (2005).
  • Barclay JL , MillerBG, DickSet al. A panel study of air pollution in subjects with heart failure: negative results in treated patients. Occup. Environ. Med. , 66(5), 325–334 (2009).
  • Langrish JP , MillsNL, ChanJKet al. Beneficial cardiovascular effects of reducing exposure to particulate air pollution with a simple facemask. Part. Fibre Toxicol. , 6, 8 (2009).
  • Langrish JP , LiJ, WangSet al. Reducing particulate air pollution exposure in patients with coronary heart disease improved cardiovascular health. Environ. Health Perspect. , 120(3), 367–372 (2012).
  • Freney EJ , HealMR, DonovanRJet al. A single-particle characterization of a mobile versatile aerosol concentration enrichment system for exposure studies. Part. Fibre Toxicol. , 3, 8 (2006).
  • Lehnert BE . Pulmonary and thoracic macrophage subpopulations and clearance of particles from the lung. Environ. Health Perspect., 97, 17–46 (1992).

Websites

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.