Browse > Article
http://dx.doi.org/10.5808/GI.2014.12.4.171

In silico Identification of SFRP1 as a Hypermethylated Gene in Colorectal Cancers  

Kim, Jongbum (Department of Bioinformatics and Life Science, Soongsil University)
Kim, Sangsoo (Department of Bioinformatics and Life Science, Soongsil University)
Publication Information
Genomics & Informatics / v.12, no.4, 2014 , pp. 171-180 More about this Journal
Abstract
Aberrant DNA methylation, as an epigenetic marker of cancer, influences tumor development and progression. We downloaded publicly available DNA methylation and gene expression datasets of matched cancer and normal pairs from the Cancer Genome Atlas Data Portal and performed a systematic computational analysis. This study has three aims to screen genes that show hypermethylation and downregulated patterns in colorectal cancers, to identify differentially methylated regions in one of these genes, SFRP1, and to test whether the SFRP genes affect survival or not. Our results show that 31 hypermethylated genes had a negative correlation with gene expression. Among them, SFRP1 had a differentially methylated pattern at each methylation site. We also show that SFRP1 may be a potential biomarker for colorectal cancer survival.
Keywords
colorectal cancer; DNA Methylation; frizzled related protein-1; survival analysis;
Citations & Related Records
연도 인용수 순위
  • Reference
1 ENCODE Project Consortium, Birney E, Stamatoyannopoulos JA, Dutta A, Guigo R, Gingeras TR, et al. Identification and analysis of functional elements in 1% of the human genome by the ENCODE pilot project. Nature 2007;447:799-816.   DOI   ScienceOn
2 Esteller M. Epigenetics in cancer. N Engl J Med 2008;358:1148-1159.   DOI   ScienceOn
3 Berdasco M, Esteller M. Aberrant epigenetic landscape in cancer: how cellular identity goes awry. Dev Cell 2010;19:698-711.   DOI
4 Foster SA, Wong DJ, Barrett MT, Galloway DA. Inactivation of p16 in human mammary epithelial cells by CpG island methylation. Mol Cell Biol 1998;18:1793-1801.   DOI
5 Baylin SB, Esteller M, Rountree MR, Bachman KE, Schuebel K, Herman JG. Aberrant patterns of DNA methylation, chromatin formation and gene expression in cancer. Hum Mol Genet 2001;10:687-692.   DOI   ScienceOn
6 Issa JP. DNA methylation as a therapeutic target in cancer. Clin Cancer Res 2007;13:1634-1637.   DOI
7 Levenson VV, Melnikov AA. DNA methylation as clinically useful biomarkers-light at the end of the tunnel. Pharmaceuticals (Basel) 2012;5:94-113.   DOI
8 Du P, Zhang X, Huang CC, Jafari N, Kibbe WA, Hou L, et al. Comparison of Beta-value and M-value methods for quantifying methylation levels by microarray analysis. BMC Bioinformatics 2010;11:587.   DOI
9 Veeck J, Niederacher D, An H, Klopocki E, Wiesmann F, Betz B, et al. Aberrant methylation of the Wnt antagonist SFRP1 in breast cancer is associated with unfavourable prognosis. Oncogene 2006;25:3479-3488.   DOI
10 Qi J, Zhu YQ, Luo J, Tao WH. Hypermethylation and expression regulation of secreted frizzled-related protein genes in colorectal tumor. World J Gastroenterol 2006;12:7113-7117.   DOI
11 Kinoshita T, Nomoto S, Kodera Y, Koike M, Fujiwara M, Nakao A. Decreased expression and aberrant hypermethylation of the SFRP genes in human gastric cancer. Hepatogastroenterology 2011;58:1051-1056.
12 Bu XM, Zhao CH, Zhang N, Gao F, Lin S, Dai XW. Hypermethylation and aberrant expression of secreted frizzled- related protein genes in pancreatic cancer. World J Gastroenterol 2008;14:3421-3424.   DOI
13 Bird AP. CpG-rich islands and the function of DNA methylation. Nature 1986;321:209-213.   DOI   ScienceOn