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BMC Cancer. 2012; 12: 67.
Published online Feb 14, 2012. doi:  10.1186/1471-2407-12-67
PMCID: PMC3311064
The application of methylation specific electrophoresis (MSE) to DNA methylation analysis of the 5' CpG island of mucin in cancer cells
Seiya Yokoyama,1 Sho Kitamoto,1 Norishige Yamada,1 Izumi Houjou,1 Tamotsu Sugai,2 Shin-ichi Nakamura,3 Yoshifumi Arisaka,4 Kyoichi Takaori,5 Michiyo Higashi,1 and Suguru Yonezawacorresponding author1
1Department of Human Pathology, Field of Oncology, Kagoshima University Graduate School of Medical and Dental Sciences, 8-35-1 Sakuragaoka, Kagoshima 890-8544, Japan
2Division of Pathology, Central Clinical Laboratory, School of Medicine, Iwate Medical University, Morioka, Japan
3DPR Co., LTD. 4-10-53, Mitake, Morioka 020-0122, Japan
4Second Department of Internal Medicine, Osaka Medical College, 2-7 Daigaku-machi, Takatsuki, Osaka 569-8686, Japan
5Division of Hepato-Biliary-Pancreatic Surgery and Transplantation, Department of Surgery, Kyoto University Graduate School of Medicine, 54 Kawara-cho, Shogoin, Sakyo-ku, Kyoto 606-8507, Japan
corresponding authorCorresponding author.
Seiya Yokoyama: yokoyama/at/m3.kufm.kagoshima-u.ac.jp; Sho Kitamoto: s-kita/at/m3.kufm.kagoshima-u.ac.jp; Norishige Yamada: Norishige.Yamada/at/cchmc.org; Izumi Houjou: izumi.hojo/at/gmail.com; Tamotsu Sugai: tsugai/at/cocoa.ocn.ne.jp; Shin-ichi Nakamura: nakamurashin/at/grace.ocn.ne.jp; Yoshifumi Arisaka: in2066/at/poh.osaka-med.ac.jp; Kyoichi Takaori: takaori/at/kuhp.kyoto-u.ac.jp; Michiyo Higashi: east/at/m2.kufm.kagoshima-u.ac.jp; Suguru Yonezawa: syoneza/at/m2.kufm.kagoshima-u.ac.jp
Received June 29, 2011; Accepted February 14, 2012.
Abstract
Background
Methylation of CpG sites in genomic DNA plays an important role in gene regulation and especially in gene silencing. We have reported mechanisms of epigenetic regulation for expression of mucins, which are markers of malignancy potential and early detection of human neoplasms. Epigenetic changes in promoter regions appear to be the first step in expression of mucins. Thus, detection of promoter methylation status is important for early diagnosis of cancer, monitoring of tumor behavior, and evaluating the response of tumors to targeted therapy. However, conventional analytical methods for DNA methylation require a large amount of DNA and have low sensitivity.
Methods
Here, we report a modified version of the bisulfite-DGGE (denaturing gradient gel electrophoresis) using a nested PCR approach. We designated this method as methylation specific electrophoresis (MSE). The MSE method is comprised of the following steps: (a) bisulfite treatment of genomic DNA, (b) amplification of the target DNA by a nested PCR approach and (c) applying to DGGE. To examine whether the MSE method is able to analyze DNA methylation of mucin genes in various samples, we apply it to DNA obtained from state cell lines, ethanol-fixed colonic crypts and human pancreatic juices.
Result
The MSE method greatly decreases the amount of input DNA. The lower detection limit for distinguishing different methylation status is < 0.1% and the detectable minimum amount of DNA is 20 pg, which can be obtained from only a few cells. We also show that MSE can be used for analysis of challenging samples such as human isolated colonic crypts or human pancreatic juices, from which only a small amount of DNA can be extracted.
Conclusions
The MSE method can provide a qualitative information of methylated sequence profile. The MSE method allows sensitive and specific analysis of the DNA methylation pattern of almost any block of multiple CpG sites. The MSE method can be applied to analysis of DNA methylation status in many different clinical samples, and this may facilitate identification of new risk markers.
Keywords: DNA methylation pattern, Epigenetics, Mucin, Colonic crypt, Pancreatic juice, Cancer
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