Call for Paper - Upcoming Issues

Cigarette Smoking Induced Human Cellular Oxidative Deregulations

International Journal of Applied Chemistry
© 2015 by SSRG - IJAC Journal
Volume 2 Issue 1
Year of Publication : 2015
Authors : Dr.P.Gopiraman
10.14445/23939133/IJAC-V2I1P101
pdf
How to Cite?

Dr.P.Gopiraman, "Cigarette Smoking Induced Human Cellular Oxidative Deregulations," SSRG International Journal of Applied Chemistry, vol. 2,  no. 1, pp. 1-4, 2015. Crossref, https://doi.org/10.14445/23939133/IJAC-V2I1P101

Abstract:

Cigarette smoke contains numerous unsafe chemical molecules, most of them at such low levels that they are unnoticeable to the people those who smoking their senses. The level of damage by these compounds is very dangerous, therefore deciphering the molecular mechanisms underlying cigarette smoke induced oxidative toxicity is one of the major task in modern biology. Now, there is substantial confirmation that cigarette smoke can cause both irreparable changes to the genetic structure of DNA. A vast script pertaining to the toxicological effect of cigarette smoke and other such type of carcinogens has been focused but, mechanisms behind the predisposition and development of oxidative damage to our genetic integrity by cigarette smoke is still mysterious. On this premises we made a current account of consequence of cigarette smoke leading to various molecular upsets leading to oxidative damage and oxidative bust. This mechanistic review will provide an existing supervision of smoke contributing to oxidative damage and molecular alterations confronts assorted human complaints. This fiery knowledge would help in superior sympathetic of better diagnostics, safety assessments, therapeutic strategies and interventions.

Keywords:

Cigarette smoke, DNA damage, Oxidative burst, cellular modulations

References:

[1] Wang Y., Jin T.H., Farhana A., Freeman J., Estell K., Zmijewski J.W., Gaggar A., Thannickal V.J., Schwiebert L.M., Steyn A.J., Deshane J.S. Exposure to cigarette smoke impacts myeloid-derived regulatory cell function and exacerbates airway hyperresponsiveness. Lab Invest, No. doi: 10.1038/labinvest.2014.126. (2014) [Epub ahead of print]
[2] Micale R.T., Maestra S.L., Pietro A.D., Visalli G., Baluce B., Balansky R., Steele V.E., De Flora S. Oxidative stress in the lung of mice exposed to cigarette smoke either early in life or in adulthood. Arch Toxicol, 87(5), 915-8 (2013)
[3] Chung S., Vu S., Filosto S., Goldkorn T. Src Regulates Cigarette Smoke-induced Ceramide Generation via nSMase2 in the Airway Epithelium. Am J Respir Cell Mol Biol., (2014) [Epub ahead of print]
[4] Sasaki J. Compounds in tobacco smoke and pathogenesis of the diseases. Nihon Rinsho, 71(3), 383- 9 (2013)
[5] Ishii Y. Smoking and respiratory diseases, Nihon Rinsho, 71(3), 416-20 (2013)
[6]Frei B., Forte T.M., Ames B.N., Cross C. E. Gas phase oxidants of cigarette smoke induce lipid peroxidation and changes in lipoprotein properties in human blood plasma: protective effects of ascorbic acid. Biochem J, 277, 133–138 (1991)
[7] Zhou J.F., Yan X. F., Guo F.Z., Sun N.Y., Qian Z.J., Ding D.Y. Effects of cigarette smoking and smoking cessation on plasma constituents and enzyme activities related to oxidative stress. Biomed. Environ Sci, 13, 44–55 (2000)
[8] Finkel T. and Holbrook N.J., Oxidants, oxidative stress and the biology of aging. Nature (London), 408, 239–247 (2000)
[9] Inoue T., Hayashi M., Takayanagi K., Morookaa S. Oxidative DNA Damage is Induced by Chronic Cigarette Smoking, but Repaired by Abstention. Journal of Health Science, 49(3), 217– 220(2003)
[10] Ames B.N., Dietary carcinogens and anticarcinogens. Oxygen radicals and degenerative diseases. Science, 221, 1256–1264 (1983)
[11]Kanofsky J.R., Hoogland H., Wever R., Weiss S. J. Singlet oxygen production by human eosinophils, J. Biol. Chem, 263, 9692–9696 (1988)
[12] Steinberg D., Partharathy S., Carew T.E., Khoo J.C., Witztum M.D. Beyond cholesterol. Modifications of low-density lipoprotein that increase its atherogenicity, N Engl J Med, 320, 915–924 (1989).
[13] Richter C., Park, J. W. and Ames, B. N. Normal oxidative damage to mitochondrial and nuclear DNA is extensive. Proc. Natl. Acad. Sci. U.S.A., 85, 6465– 6467 (1988)
[14] Middlekauff H.R., Park J., Moheimani R.S. Adverse Effects of Cigarette and Noncigarette Smoke Exposure on the Autonomic Nervous System: Mechanisms and Implications for Cardiovascular Risk, Am CollCardiol., 64(16), 1740-1750 (2014)
[15] Salem A.F., Al-Zoubi M.S., Whitaker-Menezes D., Martinez- Outschoorn U.E, Lamb R., Hulit J., Howell A., Gandara R., Sartini M., Galbiati F., Bevilacqua G., Sotgia F., Lisanti M.P. Cigarette smoke metabolically promotes cancer, via autophagy and premature aging in the host stromal microenvironment, Cell Cycle, 12(5), 818-25 (2013)
[16] Jamal Q.M., Lohani M., Siddiqui M.H., Haneef M., Gupta S.K., Wadhwa G. Molecular interaction analysis of cigarette smoke carcinogens NNK and NNAL with enzymes involved in DNArepair pathways: An in silico approach. Bioinformation, 8(17), 795-800 (2012)
[17] Messner B., Frotschnig S., Steinacher-Nigisch A., Winter B., Eichmair E., Gebetsberger J., Schwaiger S., Ploner C., Laufer G., Bernhard D. Apoptosis and necrosis: two different outcomes of cigarette smoke condensate-induced endothelial cell death, Cell Death Dis, 3, e424 (2012)
[18] Neofytou E., Tzortzaki E.G., Chatziantoniou A., Siafakas N.M. DNA Damage Due to Oxidative Stress in Chronic Obstructive Pulmonary Disease (COPD), Int J MolSci, 13(12), 16853-64 (2012)
[19] Marcon F., Carotti D., Andreoli C., Siniscalchi E., Leopardi P., Caiola S., Biffoni M., Zijno A., Medda E., Nisticò L., Rossi S., Crebelli R. DNA damage response in monozygotic twins discordant for smoking habits, Mutagenesis, 28(2), 135-44 (2013)
[20] Esakky P., Hansen D.A., Drury A.M., Moley K.H. Cigarette smoke condensate induces aryl hydrocarbon receptor-dependent changes in gene expression in spermatocytes. ReprodToxicol, 34(4), 665-76(2012)
[21] heah N.P., Pennings J.L., Vermeulen J.P., van Schooten F.J., Opperhuizen A. In vitro effects of aldehydes present in tobacco smoke on gene expression in human lung alveolar epithelial cells, Toxicol in Vitro, 27(3), 1072-81(2013)
[22] La Maestra S., Micale R.T., De Flora S., D'Agostini F., Ganchev G., Iltcheva M., Petkov N., Steele V.E, Balansky R. DNA damage in exfoliated cells and histo-pathological alterations in the urinary tract of mice exposed to cigarette smoke and treated with chemopreventive agents, Carcinogenesis, 34(1), 183-9 (2013)
[23] La Maestra S., De Flora S., Micale R.T. Effect of cigarette smoke on DNA damage, oxidative stress, and morphological alterations in mouse testis and spermatozoa, Int J Hyg Environ Health, pii: S1438- 4639(14)00081-9. doi: 10.1016/j.ijheh.2014.08.006