References156. Mel<strong>in</strong>g GI, Lothe RA, Børresen AL, Hauge S, Graue C, Clausen OP, Rognum TO(1991) Genetic <strong>alterations</strong> with<strong>in</strong> the ret<strong>in</strong>oblastoma locus <strong>in</strong> colorectalcarc<strong>in</strong>omas. Relation to DNA ploidy pattern studied by flow cytometricanalysis. Br J Cancer 64(3): 475-480157. Berg KD, Glaser CL, Thompson RE, Hamilton SR, Griff<strong>in</strong> CA, Eshleman JR (2000)Detection of microsatellite <strong>in</strong>stability by fluorescence multiplex polymerasecha<strong>in</strong> reaction. J Mol Diagn 2(1): 20-28158. Schouten JP, McElgunn CJ, Waaijer R, Zwijnenburg D, Diepvens F, Pals G (2002)Relative quantification of 40 nucleic acid sequences by multiplex ligationdependentprobe amplification. Nucleic Acids Res 30(12): e57159. Den Dunnen JT, White SJ (2006) MLPA <strong>and</strong> MAPH: sensitive detection ofdeletions <strong>and</strong> duplications. Curr Protoc Hum Genet Chapter 7:Unit 7.14.160. Vorstman JA, Jalali GR, Rappaport EF, Hacker AM, Scott C, Emanuel BS (2006)MLPA: a rapid, reliable, <strong>and</strong> sensitive method for detection <strong>and</strong> analysis ofab<strong>no</strong>rmalities of 22q. Hum Mutat 27(8): 814-821161. Hogervorst FB, Nederlof PM, Gille JJ, McElgunn CJ, Grippel<strong>in</strong>g M, Pruntel R,Regnerus R, van WT, van SR, Menko FH, Kluijt I, Dommer<strong>in</strong>g C, Verhoef S,Schouten JP, van't Veer LJ, Pals G (2003) Large ge<strong>no</strong>mic deletions <strong>and</strong>duplications <strong>in</strong> the BRCA1 gene identified by a <strong>no</strong>vel quantitative method.Cancer Res 63(7): 1449-1453162. Schwartz M, Du<strong>no</strong> M (2005) Multiplex ligation-dependent probe amplificationis superior for detect<strong>in</strong>g deletions/duplications <strong>in</strong> Duchenne musculardystrophy. Cl<strong>in</strong> Genet 67(2): 189-191163. Chan AO, Broaddus RR, Houlihan PS, Issa JP, Hamilton SR, Rashid A (2002) CpGisl<strong>and</strong> methylation <strong>in</strong> aberrant crypt foci of the colorectum. Am J Pathol 160(5):1823-1830164. Loganayagam A (2008) Faecal screen<strong>in</strong>g of colorectal cancer. Int J Cl<strong>in</strong> Pract62(3): 454-459165. Zou H, Taylor WR, Harr<strong>in</strong>gton JJ, Hussa<strong>in</strong> FT, Cao X, Lopr<strong>in</strong>zi CL, Lev<strong>in</strong>e TR, RexDK, Ahnen D, Knigge KL, Lance P, Jiang X, Smith DI, Ahlquist DA (2008) HighDetection Rates of Colorectal Neoplasia by Stool DNA Test<strong>in</strong>g With a <strong>Novel</strong>Digital Melt Curve Assay. Gastroenterology166. Syngal S, Stoffel E, Chung D, Willett C, Schoetz D, Schroy P, Jagadeesh D, Morel K,Ross M (2006) Detection of stool DNA mutations before <strong>and</strong> after treatment ofcolorectal neoplasia. Cancer 106(2): 277-283167. Koga Y, Yasunaga M, Moriya Y, Akasu T, Fujita S, Yamamoto S, Kozu T, Baba H,Matsumura Y (2008) Detection of colorectal cancer cells from feces us<strong>in</strong>g80
Referencesquantitative real-time RT-PCR for colorectal cancer diag<strong>no</strong>sis. Cancer Sci99(10): 1977-1983168. Muller HM, Oberwalder M, Fiegl H, Mor<strong>and</strong>ell M, Goebel G, Zitt M, Muhlthaler M,Ofner D, Margreiter R, Widschwendter M (2004) Methylation changes <strong>in</strong> faecalDNA: a marker for colorectal cancer screen<strong>in</strong>g? Lancet 363(9417): 1283-1285169. Chen WD, Han ZJ, Skoletsky J, Olson J, Sah J, Myeroff L, Platzer P, Lu S, DawsonD, Willis J, Pretlow TP, Lutterbaugh J, Kasturi L, Willson JK, Rao JS, Shuber A,Markowitz SD (2005) Detection <strong>in</strong> fecal DNA of colon cancer-specificmethylation of the <strong>no</strong>nexpressed viment<strong>in</strong> gene. J Natl Cancer Inst 97(15): 1124-1132170. Lofton-Day C, Model F, Devos T, Tetzner R, Distler J, Schuster M, Song X, LescheR, Liebenberg V, Ebert M, Molnar B, Grutzmann R, Pilarsky C, Sledziewski A(2008) DNA methylation biomarkers for blood-based colorectal cancerscreen<strong>in</strong>g. Cl<strong>in</strong> Chem 54(2): 414-423171. Itzkowitz SH, J<strong>and</strong>orf L, Br<strong>and</strong> R, Rabeneck L, Schroy PC, III, Sontag S, JohnsonD, Skoletsky J, Durkee K, Markowitz S, Shuber A (2007) Improved fecal DNA testfor colorectal cancer screen<strong>in</strong>g. Cl<strong>in</strong> Gastroenterol Hepatol 5(1): 111-117172. Oberwalder M, Zitt M, Wontner C, Fiegl H, Goebel G, Zitt M, Kohle O, MuhlmannG, Ofner D, Margreiter R, Muller HM (2008) SFRP2 methylation <strong>in</strong> fecal DNA--amarker for colorectal polyps. Int J Colorectal Dis 23(1): 15-19173. Wang DR, Tang D (2008) Hypermethylated SFRP2 gene <strong>in</strong> fecal DNA is a highpotential biomarker for colorectal cancer <strong>no</strong>n<strong>in</strong>vasive screen<strong>in</strong>g. World JGastroenterol 14(4): 524-531174. Huang Z, Li L, Wang J (2007) Hypermethylation of SFRP2 as a potential markerfor stool-based detection of colorectal cancer <strong>and</strong> precancerous lesions. DigDis Sci 52(9): 2287-2291175. Tan SH, Ida H, Lau QC, Goh BC, Chieng WS, Loh M, Ito Y (2007) Detection ofpromoter hypermethylation <strong>in</strong> serum samples of cancer patients bymethylation-specific polymerase cha<strong>in</strong> reaction for tumour suppressor genes<strong>in</strong>clud<strong>in</strong>g RUNX3. Oncol Rep 18(5): 1225-1230176. Nakayama G, Hibi K, Nakayama H, Kodera Y, Ito K, Akiyama S, Nakao A (2007) Ahighly sensitive method for the detection of p16 methylation <strong>in</strong> the serum ofcolorectal cancer patients. Anticancer Res 27(3B): 1459-1463177. Leung WK, To KF, Man EP, Chan MW, Bai AH, Hui AJ, Chan FK, Sung JJ (2005)Quantitative detection of promoter hypermethylation <strong>in</strong> multiple genes <strong>in</strong> theserum of patients with colorectal cancer. Am J Gastroenterol 100(10): 2274-2279178. Grutzmann R, Molnar B, Pilarsky C, Habermann JK, Schlag PM, Saeger HD,Miehlke S, Stolz T, Model F, Roblick UJ, Bruch HP, Koch R, Liebenberg V, Devos81
- Page 1 and 2:
Novel genetic and epigenetic altera
- Page 3 and 4:
TABLE OF CONTENTSACKNOWLEDGEMENTS .
- Page 5 and 6:
ACKNOWLEDGEMENTSThe present work ha
- Page 7 and 8:
Prefacetechnology[3]. This new tech
- Page 10 and 11:
SummaryThe subgroup of carcinomas w
- Page 12 and 13:
Introduction“Epigenetic inheritan
- Page 14 and 15:
Introductionamino acid change it is
- Page 16 and 17:
Introductionmethylation during embr
- Page 18 and 19:
IntroductionDNA is most of the time
- Page 20 and 21:
IntroductionFigure 5. DNA methylati
- Page 22 and 23:
IntroductionFigure 6. Incidence rat
- Page 24 and 25:
IntroductionFigure 8. Tumor staging
- Page 26 and 27:
Introductioninasmuch as 80% of colo
- Page 28 and 29:
IntroductionInstabilities involved
- Page 30 and 31: Introductionthere seems to be a fid
- Page 32 and 33: Introductionsevere alterations are
- Page 34 and 35: Introductionpopulation-wide screeni
- Page 36 and 37: IntroductionFigure 12. Present and
- Page 38 and 39: RESULTS IN BRIEFPaper Ia. “DNA hy
- Page 40 and 41: Results in Briefinstability, and se
- Page 42 and 43: Results in BriefUnivariate survival
- Page 44 and 45: Discussionseveral factors, and full
- Page 46 and 47: Discussionlow threshold, we increas
- Page 48 and 49: DiscussionIt may seem like unnecess
- Page 50 and 51: Discussionthan 96% DHPLC do not sta
- Page 52 and 53: DiscussionFigure 13. Mutation detec
- Page 54 and 55: DiscussionClinical impact of molecu
- Page 56 and 57: Discussionmarkers with a very high
- Page 58 and 59: Discussionchromosomes in metaphase[
- Page 60 and 61: DiscussionThese examples underline
- Page 62 and 63: Discussiongenes. One is based on mu
- Page 64 and 65: CONCLUSIONSWe have identified novel
- Page 66 and 67: Future PerspectivesMolecular risk a
- Page 68 and 69: REFERENCES1. Breasted J (1930) The
- Page 70 and 71: References29. Deng G, Chen A, Pong
- Page 72 and 73: References57. Al-Sukhni W, Aronson
- Page 74 and 75: References84. Kunkel TA (1993) Nucl
- Page 76 and 77: ReferencesLeggett B, Levine J, Kim
- Page 78 and 79: References133. Lind GE, Thorstensen
- Page 82 and 83: ReferencesT, Song X, Day RH, Sledzi
- Page 84 and 85: References196. Honda S, Haruta M, S
- Page 86 and 87: ORIGINAL ARTICLESAPPENDIXAppendix I
- Page 89 and 90: GASTROENTEROLOGY 2007;132:1631-1639
- Page 91: Paper IbGuro E Lind, Terje Ahlquist
- Page 94 and 95: Journal of Translational Medicine 2
- Page 96 and 97: Journal of Translational Medicine 2
- Page 98 and 99: Journal of Translational Medicine 2
- Page 100 and 101: Journal of Translational Medicine 2
- Page 102 and 103: Journal of Translational Medicine 2
- Page 105: Paper IITerje Ahlquist, Guro E Lind
- Page 108 and 109: BackgroundMost cases of colorectal
- Page 110 and 111: ADAMTS1 CDKN2A CRABP1 HOXA9 MAL MGM
- Page 112 and 113: pseudogene, leading to a high rate
- Page 114 and 115: strands. Proc Natl Acad Sci U S A 1
- Page 116 and 117: concomitant absence of transcript a
- Page 119 and 120: Volume 10 Number 7 July 2008 pp. 68
- Page 121 and 122: 682 RAS Signaling in Colorectal Car
- Page 123 and 124: 684 RAS Signaling in Colorectal Car
- Page 125 and 126: 686 RAS Signaling in Colorectal Car
- Page 127: Table W2. Detailed Somatic Events o
- Page 131 and 132:
Identification of RCC2 as a prognos
- Page 133 and 134:
INTRODUCTIONMicrosatellite instabil
- Page 135 and 136:
unselected series of primary tumors
- Page 137 and 138:
specificity, i.e. that they only am
- Page 139 and 140:
On the assumption that DNA repair a
- Page 141 and 142:
In order to ensure that gene mutati
- Page 143 and 144:
Figure 2. Mutation frequency differ
- Page 145 and 146:
and TAF1B (0.50), ACVR2A and ASTE1
- Page 147 and 148:
Multivariate analysesA multivariate
- Page 149 and 150:
When comparing our findings of muta
- Page 151 and 152:
The test series included a low numb
- Page 153 and 154:
entering M-phase remains to be seen
- Page 155 and 156:
12. Duval A, Reperant M, Hamelin R
- Page 157 and 158:
34. Martineau-Thuillier S, Andreass
- Page 159:
AppendicesAppendix I:List of abbrev
- Page 163 and 164:
Critical Reviews TM in Oncogenesis,
- Page 165 and 166:
TARGET GENES OF MSI COLORECTAL CANC
- Page 167 and 168:
TARGET GENES OF MSI COLORECTAL CANC
- Page 169 and 170:
TARGET GENES OF MSI COLORECTAL CANC
- Page 171 and 172:
TARGET GENES OF MSI COLORECTAL CANC
- Page 173 and 174:
TARGET GENES OF MSI COLORECTAL CANC
- Page 175 and 176:
TARGET GENES OF MSI COLORECTAL CANC
- Page 177 and 178:
TARGET GENES OF MSI COLORECTAL CANC
- Page 179 and 180:
TARGET GENES OF MSI COLORECTAL CANC
- Page 181 and 182:
TARGET GENES OF MSI COLORECTAL CANC
- Page 183 and 184:
TARGET GENES OF MSI COLORECTAL CANC
- Page 185 and 186:
TARGET GENES OF MSI COLORECTAL CANC
- Page 187 and 188:
TARGET GENES OF MSI COLORECTAL CANC
- Page 189 and 190:
TARGET GENES OF MSI COLORECTAL CANC
- Page 191:
TARGET GENES OF MSI COLORECTAL CANC
Change language