Estrogen receptor status in breast cancer is associated with remarkably distinct gene expression patterns

S. Gruvberger; A. Borg; M. Fernö; M. Ringnér; C. Peterson; S. Gruvberger; Y. Chen; S. Panavally; L. H. Saal; P. S. Meltzer

Estrogen receptor status in breast cancer is associated with remarkably distinct gene expression patterns

S. Gruvberger, A. Borg, M. Fernö, M. Ringnér, C. Peterson, S. Gruvberger, Y. Chen, S. Panavally, L. H. Saal, P. S. Meltzer

Research output: Contribution to journal › Article › peer-review

593 Scopus citations

Abstract

To investigate the phenotype associated with estrogen receptor α (ER) expression in breast carcinoma, gene expression profiles of 58 node-negative breast carcinomas discordant for ER status were determined using DNA microarray technology. Using artificial neural networks as well as standard hierarchical clustering techniques, the tumors could be classified according to ER status, and a list of genes which discriminate tumors according to ER status was generated. The artificial neural networks could accurately predict ER status even when excluding top discriminator genes, including ER itself. By reference to the serial analysis of gene expression database, we found that only a small proportion of the 100 most important ER discriminator genes were also regulated by estradiol in MCF-7 cells. The results provide evidence that ER+ and ER- tumors display remarkably different gene-expression phenotypes not solely explained by differences in estrogen responsiveness.

Original language	English (US)
Pages (from-to)	5979-5984
Number of pages	6
Journal	Cancer Research
Volume	61
Issue number	16
State	Published - Aug 15 2001
Externally published	Yes

ASJC Scopus subject areas

Oncology
Cancer Research

Cite this

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title = "Estrogen receptor status in breast cancer is associated with remarkably distinct gene expression patterns",

abstract = "To investigate the phenotype associated with estrogen receptor α (ER) expression in breast carcinoma, gene expression profiles of 58 node-negative breast carcinomas discordant for ER status were determined using DNA microarray technology. Using artificial neural networks as well as standard hierarchical clustering techniques, the tumors could be classified according to ER status, and a list of genes which discriminate tumors according to ER status was generated. The artificial neural networks could accurately predict ER status even when excluding top discriminator genes, including ER itself. By reference to the serial analysis of gene expression database, we found that only a small proportion of the 100 most important ER discriminator genes were also regulated by estradiol in MCF-7 cells. The results provide evidence that ER+ and ER- tumors display remarkably different gene-expression phenotypes not solely explained by differences in estrogen responsiveness.",

author = "S. Gruvberger and A. Borg and M. Fern{\"o} and M. Ringn{\'e}r and C. Peterson and S. Gruvberger and Y. Chen and S. Panavally and Saal, {L. H.} and Meltzer, {P. S.}",

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AU - Gruvberger, S.

AU - Borg, A.

AU - Fernö, M.

AU - Ringnér, M.

AU - Peterson, C.

AU - Gruvberger, S.

AU - Chen, Y.

AU - Panavally, S.

AU - Saal, L. H.

AU - Meltzer, P. S.

PY - 2001/8/15

Y1 - 2001/8/15

N2 - To investigate the phenotype associated with estrogen receptor α (ER) expression in breast carcinoma, gene expression profiles of 58 node-negative breast carcinomas discordant for ER status were determined using DNA microarray technology. Using artificial neural networks as well as standard hierarchical clustering techniques, the tumors could be classified according to ER status, and a list of genes which discriminate tumors according to ER status was generated. The artificial neural networks could accurately predict ER status even when excluding top discriminator genes, including ER itself. By reference to the serial analysis of gene expression database, we found that only a small proportion of the 100 most important ER discriminator genes were also regulated by estradiol in MCF-7 cells. The results provide evidence that ER+ and ER- tumors display remarkably different gene-expression phenotypes not solely explained by differences in estrogen responsiveness.

AB - To investigate the phenotype associated with estrogen receptor α (ER) expression in breast carcinoma, gene expression profiles of 58 node-negative breast carcinomas discordant for ER status were determined using DNA microarray technology. Using artificial neural networks as well as standard hierarchical clustering techniques, the tumors could be classified according to ER status, and a list of genes which discriminate tumors according to ER status was generated. The artificial neural networks could accurately predict ER status even when excluding top discriminator genes, including ER itself. By reference to the serial analysis of gene expression database, we found that only a small proportion of the 100 most important ER discriminator genes were also regulated by estradiol in MCF-7 cells. The results provide evidence that ER+ and ER- tumors display remarkably different gene-expression phenotypes not solely explained by differences in estrogen responsiveness.

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Estrogen receptor status in breast cancer is associated with remarkably distinct gene expression patterns

Abstract

ASJC Scopus subject areas

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