BACKGROUND: Assay of methylated DNA markers in stool is a promising approach for colorectal cancer (CRC) screening. A method to capture hypermethylated CpG islands from stool would enrich target analyte and allow optimal assay sensitivity. METHODS: Methyl-binding domain (MBD) protein was produced using a pET6HMBD plasmid with MBD DNA sequence cloned from rat MeCP2 gene and bound to a column of nickel-agarose resin. We first established the feasibility of using the MBD column to extract methylated human DNA in a high background of fecal bacterial DNA. To explore the impact of MBD enrichment on detection sensitivity, the tumor-associated methylated vimentin gene was assayed with methylation-specific PCR from stools to which low amounts of cancer cell DNA (0-50 ng) were added and from stools from CRC patients and healthy individuals. Stools from cancer patients were selected with low amounts of human DNA (median 7 ng, range 0.5-832 ng). RESULTS: With MBD enrichment, methylated vimentin was detected in stools enriched with >/=10 ng of cancer cell DNA and in CRC stool with a range of native human DNA amounts from 4 to 832 ng. Without MBD enrichment, methylated vimentin was not detected in the enriched stools and was detected in only 1 cancer stool with high human DNA (832 ng). In stools from healthy individuals methylated vimentin was not detected, with or without MBD enrichment. CONCLUSIONS: MBD capture increases assay sensitivity for detecting methylated DNA markers in stool. Applied clinical studies for stool cancer screening are indicated.
BACKGROUND: Assay of methylated DNA markers in stool is a promising approach for colorectal cancer (CRC) screening. A method to capture hypermethylated CpG islands from stool would enrich target analyte and allow optimal assay sensitivity. METHODS: Methyl-binding domain (MBD) protein was produced using a pET6HMBD plasmid with MBD DNA sequence cloned from ratMeCP2 gene and bound to a column of nickel-agarose resin. We first established the feasibility of using the MBD column to extract methylated human DNA in a high background of fecal bacterial DNA. To explore the impact of MBD enrichment on detection sensitivity, the tumor-associated methylated vimentin gene was assayed with methylation-specific PCR from stools to which low amounts of cancer cell DNA (0-50 ng) were added and from stools from CRC patients and healthy individuals. Stools from cancerpatients were selected with low amounts of human DNA (median 7 ng, range 0.5-832 ng). RESULTS: With MBD enrichment, methylated vimentin was detected in stools enriched with >/=10 ng of cancer cell DNA and in CRC stool with a range of native human DNA amounts from 4 to 832 ng. Without MBD enrichment, methylated vimentin was not detected in the enriched stools and was detected in only 1 cancer stool with high human DNA (832 ng). In stools from healthy individuals methylated vimentin was not detected, with or without MBD enrichment. CONCLUSIONS:MBD capture increases assay sensitivity for detecting methylated DNA markers in stool. Applied clinical studies for stool cancer screening are indicated.
Authors: Ming Yu; Kelly T Carter; Karen W Makar; Kathy Vickers; Cornelia M Ulrich; Robert E Schoen; Dean Brenner; Sanford D Markowitz; William M Grady Journal: Epigenetics Date: 2015-07-17 Impact factor: 4.528
Authors: Benjamin P Song; Surbhi Jain; Selena Y Lin; Quan Chen; Timothy M Block; Wei Song; Dean E Brenner; Ying-Hsiu Su Journal: J Mol Diagn Date: 2012-01-16 Impact factor: 5.568
Authors: Chen Zhao; Ivan Ivanov; Edward R Dougherty; Terryl J Hartman; Elaine Lanza; Gerd Bobe; Nancy H Colburn; Joanne R Lupton; Laurie A Davidson; Robert S Chapkin Journal: Cancer Prev Res (Phila) Date: 2009-05-26
Authors: Ann G Zauber; Theodore R Levin; C Carl Jaffe; Barbara A Galen; David F Ransohoff; Martin L Brown Journal: Med Care Date: 2008-09 Impact factor: 2.983