Abstract

Expression of the Ca(2+)-dependent, homotypic cell:cell adhesion molecule, E-cadherin (E-cad), suppresses tumor cell invasion and metastasis in experimental tumor models. Decreased E-cad expression is common in poorly differentiated, advanced-stage carcinomas. These data implicate E-cad as an "invasion suppressor" gene. The mechanism by which E-cad is silenced in advanced stage carcinomas is unclear. In this report, we show that: (a) the 5' CpG island of E-cad is densely methylated in E-cad-negative breast and prostate carcinoma cell lines and primary breast carcinoma tissue but is unmethylated in normal breast tissue; (b) treatment with the demethylating agent, 5-aza-2'-deoxycytidine, partially restores E-cad RNA and protein levels in E-cad-negative breast and prostate carcinoma cell lines; and (c) and E-cad promoter/CAT construct is expressed in both E-cad-positive and -negative breast and prostate carcinoma cell lines, indicating that these cells have the active transcriptional machinery necessary for E-cad expression. Our data demonstrate that frequent loss of E-cad expression in human breast and prostate carcinomas results from hypermethylation of the E-cad promoter region.

Keywords

Demethylating agentDNA methylationCancer researchProstateBreast carcinomaMetastasisBiologyCadherinBreast cancerCellOncologyMedicineCancerGene expressionGeneGenetics

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Publication Info

Year
1995
Type
article
Volume
55
Issue
22
Pages
5195-9
Citations
801
Access
Closed

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Jeremy R. Graff, James G. Herman, Rena G. Lapidus et al. (1995). E-cadherin expression is silenced by DNA hypermethylation in human breast and prostate carcinomas.. PubMed , 55 (22) , 5195-9.