Identification of DNA methylation in 3' genomic regions that are associated with upregulation of gene expression in colorectal cancer.

Restriction landmark genomic scanning (RLGS), a method for the two-dimensional display of end-labeled DNA restriction fragments, was utilized to identify genomic regions of CpG island methylation associated with human colon cancer. An average of 1.5% of the RLGS loci/spots are lost or significantly reduced in sporadic primary colon tumors relative to normal colon mucosa from the same patient. This may represent tumor specific methylation of about 400 CpG islands in sporadic colon cancer. A number of RLGS loci exhibiting frequent loss associated with colon cancer were cloned. DNA sequence analysis indicated that the RLGS loci identified genomic regions characteristic of CpG islands. A number of methods including bisulfite genomic sequencing as well as quantitative MassARRAY methylation analysis (www.sequenom.com) confirmed tumor specific methylation at several of these loci. DNA database searches indicated that candidate genes associated with these loci include transcription factors and genes involved in signal transduction (52%), and genes of unknown function (37%). Expression analysis using quantitative real time RT-PCR indicates that methylation of some CpG islands located in non-promoter regions were associated with upregulation of gene expression in colorectal cancer. These results indicate that alterations in methylation status within CpG islands in colon tumors may have complex consequences on gene expression and tumorigenesis, sometimes resulting in up regulation or ectopic gene expression that may involve novel regulatory mechanisms.

Association of tissue-specific differentially methylated regions (TDMs) with differential gene expression.

Early studies proposed that DNA methylation could have a role in regulating gene expression during development [Riggs, A.D. (1975) Cytogenet. Cell Genet. 14, 9-25]. However, some studies of DNA methylation in known tissue-specific genes during development do not support a major role for DNA methylation. In the results presented here, tissue-specific differentially methylated regions (TDMs) were first identified, and then expression of genes associated with these regions correlated with methylation status. Restriction landmark genomic scanning (RLGS) was used in conjunction with virtual RLGS to identify 150 TDMs [Matsuyama, T., Kimura, M.T., Koike, K., Abe, T., Nakao, T., Asami, T., Ebisuzaki, T., Held, W.A., Yoshida, S. & Nagase, H. (2003) Nucleic Acids Res. 31, 4490-4496]. Analysis of 14 TDMs by methylation-specific PCR and by bisulfite genomic sequencing confirms that the regions identified by RLGS are differentially methylated in a tissue-specific manner. The results indicate that 5% or more of the CpG islands are TDMs, disputing the general notion that all CpG islands are unmethylated. Some of the TDMs are within 5' promoter CpG islands of genes, which exhibit a tissue-specific expression pattern that is consistent with methylation status and a role in tissue differentiation.