The 29 references in paper S. Soodaeva K., L. Nikitina Yu., I. Klimanov A., С. Соодаева К., Л. Никитина Ю., И. Климанов А. (2016) “Механизмы развития оксидативного стресса под воздействием аэрополлютантов окружающей среды: потенциал средств антиоксидантной защиты // Mechanisms of antioxidative stress caused by environmental air pollution: possibility of antioxidant defense” / spz:neicon:pulmonology:y:2015:i:6:p:736-742

1
Pope C.A., Burnett R.T., Thun M.J. et al. Lung cancer, cardiopulmonary mortality, and long-term exposure to fine particulate air pollution. JAMA. 2002; 287 (9): 1132–1141.
(check this in PDF content)
2
Lewtas J. Air pollution combustion emissions: characterization of causative agents and mechanisms associated with cancer, reproductive, and cardiovascular effects. Mutation Research.2007; 636 (1–3): 95–133.
(check this in PDF content)
3
Nel A.E., Diaz-Sanchez D., Li N. The role of particulate pollutants in pulmonary inflammation and asthma: evidence for the involvement of organic chemicals and oxidative stress. Curr. Opin. Pulm. Med. 2001; 7: 20–26.
(check this in PDF content)
4
Gonzalez-Flecha B. Oxidant mechanisms in response to ambient air particles. Mol. Aspects Med.2004; 25: 169–182.
(check this in PDF content)
5
Hetland R.B., Refsnes M., Myran T. et al. 2000. Mineral and/or metal content as critical determinants of particleinduced release of IL-6 and IL-8 from A549 cells.J. Toxicol. Environ. Health. 2000; 60: 47–65.
(check this in PDF content)
6
Jimenez L.A., Thompson J., Brown D.A. et al. Activation of NF-κB by PM(10) occurs via an iron-mediated mechanism in the absence of IκB degradation. Toxicol. Appl. Pharmacol. 2000; 166: 101–110.
(check this in PDF content)
7
Pritchard R.J., Ghio A.J., Lehmann J.R. Oxidants generation and lung injury after particulate air pollutant exposure increases with the concentrations of associated metals. Inhal. Toxicol. 1996; 8: 457–477.
(check this in PDF content)
8
Andreau K., Leroux M., Bouharrour A. Health and cellular impacts of air pollutants: from cytoprotection to cytotoxicity. Biochem. Res. Int. 2012; е493894.
(check this in PDF content)
9
Sullivan J.P., Minna J.D., Shay J.W. Evidence for selfrenewing lung cancer stem cells and their implications in tumor initiation, progression, and targeted therapy. Cancer Metastasis Rev. 2010; 29 (1): 61–72.
(check this in PDF content)
10
Gualtieri M., Mantecca P., Cetta F., Camatini M. Organic compounds in tire particle induce reactive oxygen species and heat-shock proteins in the human alveolar cell line A549 Environ. Intern. 2008; 34 (4): 437–442.
(check this in PDF content)
11
Farina F., Sancini G., Mantecca P. et al. The acute toxic effects of particulate matter in mouse lung are related to size and season of collection. Toxicol. Lett.2011; 202 (3): 209–217.
(check this in PDF content)
12
Choi J.H., Kim J.S., Kim Y.C. et al. Comparative study of PM2.5- and PM10-induced oxidative stress in rat lung epithelial cells. J. Vet. Sci. 2004; 5 (1): 11–18.
(check this in PDF content)
13
Zhang J., Ghio A. J., Chang W. et al. Bim mediates mitochondria-regulated particulate matter-induced apoptosis in alveolar epithelial cells. FEBS Lett.2007; 581 (22): 4148–4152.
(check this in PDF content)
14
Garcon G., Dagher Z., Zerimech F. et al. Dunkerque City air pollution particulate matter-induced cytotoxicity, oxidative stress and inflammation in human epithelial lung cells (L132) in culture. Toxicology in Vitro. 2006; 20 (4): 519–528.
(check this in PDF content)
15
Dagher Z., Garcon G., Billet S. et al. Role of nuclear factorkappa B activation in the adverse effects induced by air pollution particulate matter (PM2.5) in human epithelial lung cells (L132) in culture.J. Appl. Toxicol.2007; 27 (3): 284–290.
(check this in PDF content)
16
Kelly F.J., Mudway I.S., Donaldson E.K. et al. Particlemediated extracellular oxidative stress in the lung. Part. Toxicol.CRC Press. 2007; 89–117.
(check this in PDF content)
17
Sheffner A. The mucolytic action of acetylcysteine. Tuber* culos. Thorac. Dis.1966; 23: 31–33.
(check this in PDF content)
18
Borgstrom L., Kagedal B., Paulsen O. Pharmacokinetics of N-acetylcysteine in man. Eur. J. Clin. Pharmacol.1986; 31: 217–222.
(check this in PDF content)
19
Sjodin K., Nilsson E., Hallberg A., Tunek A. Metabolism of N-acety-L-cysteine: some structural requirements for the deacetylation and consequences for the oral bioavailability. Biochem. Pharmacol. 1989; 38: 3981–3985.
(check this in PDF content)
20
Григорьева Н.Ю., Бердникова Н.Г., Цыганко Д.В., Демидова Г.В. Особенности применения ацетилцистеина в клинической практике. Русский медицинский журнал. 2008; 16 (2): 78–82.
(check this in PDF content)
21
Соодаева С.К., Климанов И.А. Нарушения окислительного метаболизма при заболеваниях респираторного тракта и современные подходы к антиоксидантной терапии. Атмосфера. Пульмонология и аллергология. 2009; 1: 34–38.
(check this in PDF content)
22
Ушкалова Е.А. Ацетилцистеин в клинической практике: настоящее и перспективы. Фарматека. 2007; 17: 30–36.
(check this in PDF content)
23
Намазова-Баранова Л.С., Давыдова И.В. Ацетилцистеин в педиатрической практике. Русский медицинский журнал. 2013; 25: 1233–1236.
(check this in PDF content)
24
Moldéus P., Cotgreave I.A. N-acetylcysteine. Methods Enzymol. 1994; 234: 482–492.
(check this in PDF content)
25
Santus P., Corsico A., Solidoro P. et al. Oxidative stress and respiratory system: Pharmacological and clinical reappraisal of N-acetylcysteine. COPD. 2014, 11 (6): 705–717.
(check this in PDF content)
26
Tanel A., Averill-Bates D.A. Inhibition of acrolein-induced apoptosis by the antioxidant n-acetylcysteine. J. Pharmacol. Exp. Ther.2007; 321 (1): 73–83.
(check this in PDF content)
27
Ramos Rhoden C., Lawrence J., Godleski J.J., et al. N-acetylcysteine prevents lung inflammation after shortterm inhalation exposure to concentrated ambient particles. Toxicol. Sci. 2004; 79: 296–303.
(check this in PDF content)
28
Banerjee A., Trueblood M.B., Zhang X., et al. N-acetylcysteineamide (NACA) prevents inflammation and oxidative stress in animals exposed to diesel engine exhaust. Toxicol. Lett.2009; 187 (3): 187–193.
(check this in PDF content)
29
Carlsten C., MacNutt M.J., Zhang Z. et al. Anti-oxidant N-acetylcysteine diminishes diesel exhaust-induced increased airway responsiveness in person with airway hyperreactivity.Toxicol. Sci.2014; 139 (2): 479–487. Поступила 27.10.15
(check this in PDF content)