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Epigenomics Volume 6, 2014 - Issue 2
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Research Article

DNA methylation changes in genes frequently mutated in sporadic colorectal cancer and in the DNA repair and Wnt/β-catenin signaling pathway genes

Sanja A Farkas1 Department of Laboratory Medicine, Örebro University Hospital; Örebro, Sweden;2 School of Health & Medical Sciences, Örebro University; Örebro, SwedenCorrespondence[email protected]
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,
Veronika Vymetalkova3 Institute of Experimental Medicine, Academy of Sciences of the Czech Republic, Videnska 1083, 14200Prague, Czech Republic;4 Institute of Biology & Medical Genetics, 1st Medical Faculty, Charles University, Albertov 6, 12000Prague, Czech RepublicView further author information
,
Ludmila Vodickova3 Institute of Experimental Medicine, Academy of Sciences of the Czech Republic, Videnska 1083, 14200Prague, Czech Republic;4 Institute of Biology & Medical Genetics, 1st Medical Faculty, Charles University, Albertov 6, 12000Prague, Czech Republic;5 Biomedical Centre, Faculty of Medicine in Pilsen, Charles University, Czech RepublicView further author information
,
Pavel Vodicka3 Institute of Experimental Medicine, Academy of Sciences of the Czech Republic, Videnska 1083, 14200Prague, Czech Republic;4 Institute of Biology & Medical Genetics, 1st Medical Faculty, Charles University, Albertov 6, 12000Prague, Czech RepublicView further author information
&
Torbjörn K Nilsson6 Department of Medical Biosciences/Clinical Chemistry, Umeå University, Umeå, SwedenView further author information
Pages 179-191 | Published online: 09 May 2014

References

  • Parkin DM , BrayF , FerlayJ , PisaniP . Global cancer statistics, 2002 . CA Cancer J. Clin.55 ( 2 ), 74 – 108 ( 2005 ).
  • Polakova V , PardiniB , NaccaratiAet al. Genotype and haplotype analysis of cell cycle genes in sporadic colorectal cancer in the Czech Republic . Hum. Mutat.30 ( 4 ), 661 – 668 ( 2009 ).
  • Jass JR . Classification of colorectal cancer based on correlation of clinical, morphological and molecular features . Histopathology50 ( 1 ), 113 – 130 ( 2007 ).
  • Beggs AD , DomingoE , AbulafiM , HodgsonSV , TomlinsonIP . A study of genomic instability in early preneoplastic colonic lesions . Oncogene . 32 ( 46 ), 5333 – 5337 ( 2013 ).
  • Ahnen DJ . The American College of Gastroenterology Emily Couric Lecture–the adenoma-carcinoma sequence revisited: has the era of genetic tailoring finally arrived?   Am. J. Gastroenterol.106 ( 2 ), 190 – 198 ( 2011 ).
  • Feinberg AP . The epigenetics of cancer etiology . Semin. Cancer Biol.14 ( 6 ), 427 – 432 ( 2004 ).
  • Knudson AG . Two genetic hits (more or less) to cancer . Nat. Rev. Cancer1 ( 2 ), 157 – 162 ( 2001 ).
  • Segditsas S , RowanAJ , HowarthKet al. APC and the three-hit hypothesis . Oncogene28 ( 1 ), 146 – 155 ( 2009 ).
  • Zitt M , MüllerHM . DNA methylation in colorectal cancer – impact on screening and therapy monitoring modalities ? Dis. Markers . 23 ( 1–2 ), 51 – 71 ( 2007 ).  
  • Naumov VA , GenerozovEV , ZaharjevskayaNBet al. Genome-scale analysis of DNA methylation in colorectal cancer using Infinium HumanMethylation450 BeadChips . Epigenetics . 8 ( 9 ), 921 – 934 ( 2013 ).
  • Beggs AD , JonesA , El-BahwaryM , AbulafiM , HodgsonSV , TomlinsonIP . Whole-genome methylation analysis of benign and malignant colorectal tumours . J. Pathol. . 229 ( 5 ), 697 – 704 ( 2013 ).
  • Network CGA . Comprehensive molecular characterization of human colon and rectal cancer . Nature . 487 ( 7407 ), 330 – 337 ( 2012 ).
  • Hinoue T , WeisenbergerDJ , LangeCPet al. Genome-scale analysis of aberrant DNA methylation in colorectal cancer . Genome Res.22 ( 2 ), 271 – 282 ( 2012 ).
  • Irizarry R , Ladd-AcostaC , WenBet al. The human colon cancer methylome shows similar hypo- and hypermethylation at conserved tissue-specific CpG island shores . Nat. Genet.41 ( 2 ), 178 – 186 ( 2009 ).
  • Slyskova J , KorenkovaV , CollinsARet al. Functional, genetic, and epigenetic aspects of base and nucleotide excision repair in colorectal carcinomas . Clin. Cancer Res.18 ( 21 ), 5878 – 5887 ( 2012 ).
  • Sandoval J , HeynHA , MoranSet al. Validation of a DNA methylation microarray for 450,000 CpG sites in the human genome . Epigenetics6 ( 6 ), 692 – 702 ( 2011 ).
  • Bibikova M , BarnesB , TsanCet al. High density DNA methylation array with single CpG site resolution . Genomics98 ( 4 ), 288 – 295 ( 2011 ).
  • Giles RH , van EsJH , CleversH . Caught up in a Wnt storm: wnt signaling in cancer . Biochim. Biophys. Acta1653 ( 1 ), 1 – 24 ( 2003 ).
  • Human DNA repair genes. http://sciencepark.mdanderson.org/labs/wood/dna_repair_genes.html
  • Rabbee N , SpeedTP . A genotype calling algorithm for affymetrix SNP arrays . Bioinformatics22 ( 1 ), 7 – 12 ( 2006 ).
  • Olshen AB , VenkatramanES , LucitoR , WiglerM . Circular binary segmentation for the analysis of array-based DNA copy number data . Biostatistics5 ( 4 ), 557 – 572 ( 2004 ).
  • Rasmussen M , SundstromM , KultimaHGet al. Allele-specific copy number analysis of tumor samples with aneuploidy and tumor heterogeneity . Genome Biol.   12 ( 10 ), R108 ( 2011 ).
  • Uddin S , AhmedM , HussainAet al. Genome-wide expression analysis of Middle Eastern colorectal cancer reveals FOXM1 as a novel target for cancer therapy . Am J. Pathol.178 ( 2 ), 537 – 547 ( 2011 ).
  • NCBI . www.ncbi.nlm.nih.gov/geo/geo2r
  • Wang D , YanL , HuQet al. IMA: an R package for high-throughput analysis of Illumina’s 450K Infinium methylation data . Bioinformatics28 ( 5 ), 729 – 730 ( 2012 ).
  • Smyth GK . Linear models and empirical bayes methods for assessing differential expression in microarray experiments . Stat. Appl. Genet. Mol. Biol.3 , ( 2004 ). Article3
  • Tsai HC , BaylinSB . Cancer epigenetics: linking basic biology to clinical medicine . Cell Res . 21 ( 3 ), 502 – 517 ( 2011 ).
  • Carmona FJ , AzuaraD , Berenguer-LlergoAet al. DNA methylation biomarkers for noninvasive diagnosis of colorectal cancer . Cancer Prev. Res. (Phila.)6 ( 7 ), 656 – 665 ( 2013 ).
  • Ordway JM , BedellJA , CitekRWet al. Comprehensive DNA methylation profiling in a human cancer genome identifies novel epigenetic targets . Carcinogenesis27 ( 12 ), 2409 – 2423 ( 2006 ).
  • Goeppert B , KonermannC , SchmidtCRet al. Global alterations of DNA methylation in cholangiocarcinoma targets the Wnt signaling pathway . Hepatology59 ( 2 ), 544 – 554 ( 2014 ).
  • Bizama C , BenaventeF , SalvatierraEet al. The low-abundance transcriptome reveals novel biomarkers, specific intracellular pathways and targetable genes associated with advanced gastric cancer . Int. J. Cancer134 ( 4 ), 755 – 764 ( 2014 ).
  • Sato H , SuzukiH , ToyotaMet al. Frequent epigenetic inactivation of DICKKOPF family genes in human gastrointestinal tumors . Carcinogenesis28 ( 12 ), 2459 – 2466 ( 2007 ).
  • Nilsson TK , Löf-ÖhlinZM , SunXF . DNA methylation of the p14ARF, RASSF1A and APC1A genes as an independent prognostic factor in colorectal cancer patients . Int. J. Oncol.42 ( 1 ), 127 – 133 ( 2013 ).
  • Siegel RM . Caspases at the crossroads of immune-cell life and death . Nat. Rev. Immunol.6 ( 4 ), 308 – 317 ( 2006 ).
  • Kim HS , LeeJW , SoungYHet al. Inactivating mutations of caspase-8 gene in colorectal carcinomas . Gastroenterology125 ( 3 ), 708 – 715 ( 2003 ).
  • Soung YH , LeeJW , KimSYet al. Caspase-8 gene is frequently inactivated by the frameshift somatic mutation 1225_1226delTG in hepatocellular carcinomas . Oncogene24 ( 1 ), 141 – 147 ( 2005 ).
  • Cho S , LeeJH , ChoSBet al. Epigenetic methylation and expression of caspase 8 and survivin in hepatocellular carcinoma . Pathol. Int.60 ( 3 ), 203 – 211 ( 2010 ).
  • Skiriute D , VaitkieneP , SaferisVet al. MGMT, GATA6, CD81, DR4, and CASP8 gene promoter methylation in glioblastoma . BMC Cancer12 , 218 ( 2012 ).
  • Wu Y , AlvarezM , SlamonDJ , KoefflerP , VadgamaJV . Caspase 8 and maspin are downregulated in breast cancer cells due to CpG site promoter methylation . BMC Cancer10 , 32 ( 2010 ).
  • Sánchez-Vega F , GoteaV , PetrykowskaHMet al. Recurrent patterns of DNA methylation in the ZNF154, CASP8, and VHL promoters across a wide spectrum of human solid epithelial tumors and cancer cell lines . Epigenetics8 ( 12 ), 1355 – 1372 ( 2013 ).
  • Jabeen R , BabarME , AhmadJ , AwanAR . Novel mutations of endothelin-B receptor gene in Pakistani patients with Waardenburg syndrome . Mol. Biol. Rep.39 ( 1 ), 785 – 788 ( 2012 ).
  • Lo KW , TsangYS , KwongJ , ToKF , TeoPM , HuangDP . Promoter hypermethylation of the EDNRB gene in nasopharyngeal carcinoma . Int. J. Cancer98 ( 5 ), 651 – 655 ( 2002 ).
  • Tao K , WuC , WuKet al. Quantitative analysis of promoter methylation of the EDNRB gene in gastric cancer . Med. Oncol.29 ( 1 ), 107 – 112 ( 2012 ).
  • Hsu LS , LeeHC , ChauGY , YinPH , ChiCW , LuiWY . Aberrant methylation of EDNRB and p16 genes in hepatocellular carcinoma (HCC) in Taiwan . Oncol. Rep.15 ( 2 ), 507 – 511 ( 2006 ).
  • Filmus J , CapurroM , RastJ . Glypicans . Genome Biol.9 ( 5 ), 224 ( 2008 ).  
  • Lau CS , YuCB , WongHKet al. Allelic imbalance at 13q31 is associated with reduced GPC6 in Chinese with sporadic retinoblastoma . Br. J. Ophthalmol.94 ( 3 ), 357 – 362 ( 2010 ).
  • Yiu GK , KaunistoA , ChinYR , TokerA . NFAT promotes carcinoma invasive migration through glypican-6 . Biochem. J.440 ( 1 ), 157 – 166 ( 2011 ).
  • Fleming NI , JorissenRN , MouradovDet al. SMAD2, SMAD3 and SMAD4 mutations in colorectal cancer . Cancer Res.73 ( 2 ), 725 – 735 ( 2013 ).
  • Papageorgis P , LambertAW , OzturkSet al. Smad signaling is required to maintain epigenetic silencing during breast cancer progression . Cancer Res.70 ( 3 ), 968 – 978 ( 2010 ).
  • Kulis M , QueirósAC , BeekmanR , Martín-SuberoJI . Intragenic DNA methylation in transcriptional regulation, normal differentiation and cancer . Biochim. Biophys. Acta1829 ( 11 ), 1161 – 1174 ( 2013 ).
  • Nordlund J , BäcklinCL , WahlbergPet al. Genome-wide signatures of differential DNA methylation in pediatric acute lymphoblastic leukemia . Genome Biol.14 ( 9 ), r105 ( 2013 ).

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