J Korean Breast Cancer Soc.  2004 Mar;7(1):8-16. 10.4048/jkbcs.2004.7.1.8.

The Characterization of CpG Methylation of ERalpha and ERbeta Gene in the Breast Cancer

Affiliations
  • 1Department of 1Biology, Dongguk University, Seoul, Korea.
  • 2Research Institute and Hospital, National Cancer Center, Goyang, Korea. rorerr@ncc.re.kr

Abstract

PURPOSE
Aberrant methylation of promoter cytosine guanine dinucleotide (CpG) islands is known to be responsible for the alteration and silencing of cancer genes. The data presented here show that most methylations of Estrogen Receptoralpha (ERalpha) and ERbeta are found at or near the transcriptional factor binding sites in the breast cancer tissues. METHODS: Fifty archival breast cancer tissues and twenty-five normal tissues were selected and the status of the methylation and the transcription were investigated by bisulfite genomic sequencing and reverse transcription (RT) PCR. RESULTS: Consequently, the hypermethylation of ERalpha and ERbeta genes was found in 66.0% and 50.0% of 50 breast cancers, respectively. In particular, the methylation sites were frequently located near the CCAAT box (-363 and -375) for the ERalpha gene, and at or adjacent to binding sites of GATA (-217, -302) and Sp1 (+224, +227, +160) for the ERbeta gene. The methylations at or near the binding sites were observed in most of the methylated cancers (ERalpha 87.9%, and ERbeta 84.0%). The methylated cases were negatively correlated with the expression of ERalpha and ERbeta RNA (P<0.01). In particular, tumors with CpG methylation of ERalpha and ERbeta at or near the binding sites did not express mRNA, whereas those CpG methylation outside the sites showed moderate expression. Four tumors with methylated ERalpha genes at sites unrelated to the binding sites showed higher levels of protein expression than those with methylation at or near the sites (P=0.01). CONCLUSION: Although the number of samples was relatively small, our results suggest that DNA methylation in ERalpha and ERbeta appears to take significant effect on transcriptional silencing and is most often present in the CpG sites at or near the putative transcriptional factor binding sites. We believe this finding offers a clue to the initiation or spread pattern of CpG methylation in human breast cancer.

Keyword

Breast cancer; ERalpha ERbeta Methylation; Transcription

MeSH Terms

Binding Sites
Breast Neoplasms*
Breast*
Cytosine
DNA Methylation
Estrogen Receptor alpha*
Estrogen Receptor beta*
Estrogens
Genes, Neoplasm
Guanine
Humans
Islands
Methylation*
Polymerase Chain Reaction
Reverse Transcription
RNA
RNA, Messenger
Cytosine
Estrogen Receptor alpha
Estrogen Receptor beta
Estrogens
Guanine
RNA
RNA, Messenger
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