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International Journal of Radiation Biology Volume 87, 2011 - Issue 8: Special Issue: Overview of research from the Centers for Medical Countermeasures against Radiation; Guest Editors: Dr Jacqueline Williams and Dr David Brenner
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Research Article

Gene expression signatures of radiation exposure in peripheral white blood cells of smokers and non-smokers

Sunirmal PaulCenter for Radiological Research, Columbia University Medical Center, New York, NY, 10032, USA
&
Sally A. AmundsonCenter for Radiological Research, Columbia University Medical Center, New York, NY, 10032, USACorrespondence[email protected]
Pages 791-801 | Received 31 Aug 2010, Accepted 25 Feb 2011, Published online: 01 Aug 2011

References

  • AmundsonSA, GraceMB, McLelandCB, EpperlyMW, YeagerA, ZhanQ, GreenbergerJS, FornaceAJ Jr. 2004. Human in vivo radiation-induced biomarkers: gene expression changes in radiotherapy patients. Cancer Research 64:6368–6371.
  • AmundsonSA, ShahabS, BittnerM, MeltzerP, TrentJ, Fornace, AJ Jr. 2000. Identification of potential mRNA markers in peripheral blood lymphocytes for human exposure to ionizing radiation. Radiation Research 154:342–346.
  • BairdAE. 2007. Blood genomics in human stroke. Stroke 38:694–698.
  • BeaneJ, SebastianiP, LiuG, BrodyJS, LenburgME, SpiraA. 2007. Reversible and permanent effects of tobacco smoke exposure on airway epithelial gene expression. Genome Biology 8: R201.
  • BoelensMC, van den BergA, FehrmannRS, GeerlingsM, de JongWK, te MeermanGJ, SietsmaH, TimensW, PostmaDS, GroenHJ. 2009. Current smoking-specific gene expression signature in normal bronchial epithelium is enhanced in squamous cell lung cancer. Journal of Pathology 218:182–191.
  • BuyseM, LoiS, van't VeerL, VialeG, DelorenziM, GlasAM, d'AssigniesMS, BerghJ, LidereauR, EllisP, HarrisA, BogaertsJ, TherasseP, FlooreA, AmakraneM, PietteF, RutgersE, SotiriouC, CardosoF, PiccartMJ. 2006. Validation and clinical utility of a 70-gene prognostic signature for women with node-negative breast cancer. Journal of the National Cancer Institute 98:1183–1192.
  • CadeirasM, BayernM, BurkeE, DedrickR, GangadinA, LatifF, ShazadK, SinhaA, TabakEG, MarboeCC, CalifanoAC, DengMC. 2008. Gene expression profiles of patients with antibody-mediated rejection after cardiac transplantation. Journal of Heart and Lung Transplantation 27(8):932–934.
  • ChariR, LonerganKM, NgRT, MacAulayC, LamWL, LamS. 2007. Effect of active smoking on the human bronchial epithelium transcriptome. BMC Genomics 8:297.
  • CheungVG, ConlinLK, WeberTM, ArcaroM, JenKY, MorleyM, SpielmanRS. 2003. Natural variation in human gene expression assessed in lymphoblastoid cells. Nature Genetics 33:422–425.
  • CorreaCR, CheungVG. 2004. Genetic variation in radiation-induced expression phenotypes. American Journal of Human Genetics 75:885–890.
  • DressmanHK, MuramotoGG, ChaoNJ, MeadowsS, MarshallD, GinsburgGS, NevinsJR, ChuteJP. 2007. Gene expression signatures that predict radiation exposure in mice and humans. PLoS Medicine 4: e106.
  • DumeauxV, OlsenKS, NuelG, PaulssenRH, Borresen-DaleAL, LundE. 2010. Deciphering normal blood gene expression variation – the NOWAC postgenome study. PLoS Genetics 6: e1000873.
  • EadyJJ, WortleyGM, WormstoneYM, HughesJC, AstleySB, FoxallRJ, DolemanJF, ElliottRM. 2005. Variation in gene expression profiles of peripheral blood mononuclear cells from healthy volunteers. Physiological Genomics 22:402–411.
  • EdwardsCJ, FeldmanJL, BeechJ, ShieldsKM, StoverJA, TrepicchioWL, LarsenG, FoxwellBM, BrennanFM, FeldmannM, PittmanDD. 2007. Molecular profile of peripheral blood mononuclear cells from patients with rheumatoid arthritis. Molecular Medicine 13:40–58.
  • FachinAL, MelloSS, Sandrin-GarciaP, JuntaCM, Ghilardi-NettoT, DonadiEA, PassosGA, Sakamoto-HojoET. 2009. Gene expression profiles in radiation workers occupationally exposed to ionizing radiation. Journal of Radiation Research (Tokyo) 50:61–71.
  • GraceMB, McLelandCB, BlakelyWF. 2002. Real-time quantitative RT-PCR assay of GADD45 gene expression changes as a biomarker for radiation biodosimetry. International Journal of Radiation Biology 78:1011–1021.
  • GraceMB, McLelandCB, GagliardiSJ, SmithJM, JacksonWEr, BlakelyWF. 2003. Development and assessment of a quantitative reverse transcription-PCR assay for simultaneous measurement of four amplicons. Clinical Chemistry 49:1467–1475.
  • HarveyBG, HeguyA, LeopoldPL, CarolanBJ, FerrisB, CrystalRG. 2007. Modification of gene expression of the small airway epithelium in response to cigarette smoking. Journal of Molecular Medicine 85:39–53.
  • HellerRA, SchenaM, ChaiA, ShalonD, BedilionT, GilmoreJ, WoolleyDE, DavisRW. 1997. Discovery and analysis of inflammatory disease-related genes using cDNA microarrays. Proceedings of the National Academy of Sciences of the USA 94:2150–2155.
  • IlnytskyyY, ZempFJ, KoturbashI, KovalchukO. 2008. Altered microRNA expression patterns in irradiated hematopoietic tissues suggest a sex-specific protective mechanism. Biochemical and Biophysical Research Communications 377:41–45.
  • KoscielnyS. 2010. Why most gene expression signatures of tumors have not been useful in the clinic. Science Translational Medicine 2: 14ps2.
  • LamDC, GirardL, SuenWS, ChungLP, TinVP, LamWK, MinnaJD, WongMP. 2006. Establishment and expression profiling of new lung cancer cell lines from Chinese smokers and lifetime never-smokers. Journal of Thoracic Oncology 1:932–942.
  • LampeJW, StepaniantsSB, MaoM, RadichJP, DaiH, LinsleyPS, FriendSH, PotterJD. 2004. Signatures of environmental exposures using peripheral leukocyte gene expression: Tobacco smoke. Cancer Epidemiology Biomarkers and Prevention 13:445–453.
  • LandiMT, DrachevaT, RotunnoM, FigueroaJD, LiuH, DasguptaA, MannFE, FukuokaJ, HamesM, BergenAW, MurphySE, YangP, PesatoriAC, ConsonniD, BertazziPA, WacholderS, ShihJH, CaporasoNE, JenJ. 2008. Gene expression signature of cigarette smoking and its role in lung adenocarcinoma development and survival. PLoS One 3: e1651.
  • LodoviciM, LuceriC, De FilippoC, RomualdiC, BambiF, DolaraP. 2007. Smokers and passive smokers gene expression profiles: Correlation with the DNA oxidation damage. Free Radical Biology and Medicine 43:415–422.
  • MandelM, AchironA. 2006. Gene expression studies in systemic lupus erythematosus. Lupus 15:451–456.
  • MartinKJ, GranerE, LiY, PriceLM, KritzmanBM, FournierMV, RheiE, PardeeAB. 2001. High-sensitivity array analysis of gene expression for the early detection of disseminated breast tumor cells in peripheral blood. Proceedings of the National Academy of Sciences of the USA 98:2646–2651.
  • MeadowsSK, DressmanHK, MuramotoGG, HimburgH, SalterA, WeiZ, GinsburgGS, ChaoNJ, NevinsJR, ChuteJP. 2008. Gene expression signatures of radiation response are specific, durable and accurate in mice and humans. PLoS One 3: e1912.
  • MichielsS, KoscielnyS, HillC. 2005. Prediction of cancer outcome with microarrays: A multiple random validation strategy. The Lancet 365:488–492.
  • MillerAC, LuoL, ChinWK, Director-MyskaAE, PrasannaPG, BlakelyWF. 2002. Proto-oncogene expression: a predictive assay for radiation biodosimetry applications. Radiation Protection and Dosimetry 99:295–302.
  • MorandiE, SeveriniC, QuercioliD, PerdichizziS, MascoloMG, HornW, VaccariM, NucciMC, LodiV, ViolanteFS, BolognesiC, GrilliS, SilingardiP, ColacciA. 2009. Gene expression changes in medical workers exposed to radiation. Radiation Research 172:500–508.
  • MoriM, BenotmaneMA, TironeI, Hooghe-PetersEL, DesaintesC. 2005. Transcriptional response to ionizing radiation in lymphocyte subsets. Cellular and Molecular Life Sciences 62:1489–1501.
  • MoriM, BenotmaneMA, VanhoveD, van HummelenP, Hooghe-PetersEL, DesaintesC. 2004. Effect of ionizing radiation on gene expression in CD4+ T lymphocytes and in Jurkat cells: Unraveling novel pathways in radiation response. Cellular and Molecular Life Sciences 61:1955–1964.
  • NakamuraS, KobayashiM, SuginoT, KajimotoO, MatobaR, MatsubaraK. 2010. Effect of exercise on gene expression profile in unfractionated peripheral blood leukocytes. Biochemical and Biophysical Research Communications 391:846–851.
  • PatinoWD, MianOY, KangJG, MatobaS, BartlettLD, HolbrookB, TroutHHr, KozloffL, HwangPM. 2005. Circulating transcriptome reveals markers of atherosclerosis. Proceedings of the National Academy of Sciences of the (USA 102:3423–3428.
  • PaulS, AmundsonSA. 2008. Development of gene expression signatures for practical radiation biodosimetry. International Journal of Radiation Oncology Biology and Physics 71:1236–1244.
  • PaulS, BarkerCA, TurnerHC, McLaneA, WoldenSL, AmundsonSA. 2011. Prediction of in vivo radiation dose status in radiotherapy patients using ex vivo and in vivo gene expression signatures. Radiation Research in press
  • PogribnyI, RaicheJ, SlovackM, KovalchukO. 2004. Dose-dependence, sex- and tissue-specificity, and persistence of radiation-induced genomic DNA methylation changes. Biochemical and Biophysical Research Communications 320:1253–1261.
  • RadichJP, MaoM, StepaniantsS, BieryM, CastleJ, WardT, SchimmackG, KobayashiS, CarletonM, LampeJ, LinsleyPS. 2004. Individual-specific variation of gene expression in peripheral blood leukocytes. Genomics 83:980–988.
  • RamiloO, AllmanW, ChungW, MejiasA, ArduraM, GlaserC, WittkowskiKM, PiquerasB, BanchereauJ, PaluckaAK, ChaussabelD. 2007. Gene expression patterns in blood leukocytes discriminate patients with acute infections. Blood 109:2066–2077.
  • SimonR, LamA, LiM-C, NganM, MenenzesS, ZhaoY. 2007. Analysis of gene expression data using BRB-Array Tools. Cancer Informatics 2:11–17.
  • SmirnovDA, MorleyM, ShinE, SpielmanRS, CheungVG. 2009. Genetic analysis of radiation-induced changes in human gene expression. Nature 459:587–591.
  • TurtoiA, BrownI, OskampD, SchneeweissFH. 2008. Early gene expression in human lymphocytes after gamma-irradiation-a genetic pattern with potential for biodosimetry. International Journal of Radiation Biology 84:375–387.
  • van LeeuwenDM, van AgenE, GottschalkRW, VlietinckR, GielenM, van HerwijnenMH, MaasLM, KleinjansJC, van DelftJH. 2007. Cigarette smoke-induced differential gene expression in blood cells from monozygotic twin pairs. Carcinogenesis 28:691–697.
  • WhitneyAR, DiehnM, PopperSJ, AlizadehAA, BoldrickJC, RelmanDA, BrownPO. 2003. Individuality and variation in gene expression patterns in human blood. Proceedings of the National Academy of Sciences of the USA 100:1896–1901.
  • WongHR, CvijanovichN, AllenGL, LinR, AnasN, MeyerK, FreishtatRJ, MonacoM, OdomsK, SakthivelB, ShanleyTP. 2009. Genomic expression profiling across the pediatric systemic inflammatory response syndrome, sepsis, and septic shock spectrum. Critical Care Medicine 37:1558–1566.
  • ZiekerD, ZiekerJ, DietzschJ, BurnetM, NorthoffH, FehrenbachE. 2005. CDNA-microarray analysis as a research tool for expression profiling in human peripheral blood following exercise. Exercise Immunology Review 11:86–96.

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