The expression and function of estrogen receptor alpha and beta in human breast cancer and its clinical application.

The overexpression of estrogen receptor alpha (ERalpha) is frequently observed in the early stage of breast cancer. We previously reported that the specific promoter of the ERalpha gene is responsible for this enhanced transcription of the gene, and identified the cis-acting elements which play an important role in its transcription. Furthermore, methylation of the ERalpha gene promoters also contribute to the regulation of gene transcription. Elucidation of these mechanisms of ERalpha gene expression may provide useful information for the early detection and chemoprevention of breast cancer. On the other hand, the expression of ERbeta has been reported in breast cancer. We have also assessed the significance and function of ERbeta and its variant types in breast cancer, and suggest that ERbeta and ERbetacx specifically suppress the function of ERalpha through different mechanisms. ERbeta isoforms may be important functional modulators of the estrogen-signaling pathway in breast cancer cells, and might affect the clinical outcome of patients. Moreover, to address the role of these ERs on the estrogen-dependent growth of breast cancer cells and to develop a diagnostic tool, we have analyzed the gene expression profiles of estrogen-responsive genes using cDNA microarray. Based on these results, the expression of several candidate genes in breast cancer tissues were analyzed by real-time RT-PCR and by immunohistochemical techniques, in order to discover new predictive factors for the endocrine therapy of patients with breast cancer. These studies could provide new clues for the elucidation of the estrogen-dependent mechanisms of cancer and the clinical benefits for patients.

[1]  T. Kurihara,et al.  Two promoters in expression of estrogen receptor messenger RNA in human breast cancer. , 1997, Carcinogenesis.

[2]  David Botstein,et al.  RERG Is a Novel ras-related, Estrogen-regulated and Growth-inhibitory Gene in Breast Cancer* , 2001, The Journal of Biological Chemistry.

[3]  P. Chambon,et al.  Activation of pS2 gene transcription is a primary response to estrogen in the human breast cancer cell line MCF-7. , 1984, Proceedings of the National Academy of Sciences of the United States of America.

[4]  J. Gustafsson,et al.  Cloning of a novel receptor expressed in rat prostate and ovary. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[5]  Y. Makino,et al.  Functional modulation of estrogen receptor by redox state with reference to thioredoxin as a mediator. , 1997, Nucleic acids research.

[6]  Y. Ouchi,et al.  Molecular cloning and characterization of human estrogen receptor βcx: A potential inhibitor of estrogen action in human , 1998 .

[7]  T. Yamori,et al.  Development of cDNA microarray for expression profiling of estrogen-responsive genes. , 2002, Journal of molecular endocrinology.

[8]  J. Gustafsson,et al.  Expression, Function, and Clinical Implications of the Estrogen Receptor β in Human Lung Cancers , 2001 .

[9]  H. Huynh,et al.  A role for insulin-like growth factor binding protein 5 in the antiproliferative action of the antiestrogen ICI 182780. , 1996, Cell growth & differentiation : the molecular biology journal of the American Association for Cancer Research.

[10]  R. Weigel,et al.  PDZK1 and GREB1 are estrogen-regulated genes expressed in hormone-responsive breast cancer. , 2000, Cancer research.

[11]  S. Nakashima,et al.  MDM2 Enhances the Function of Estrogen Receptor α in Human Breast Cancer Cells , 2001 .

[12]  Helmut Dotzlaw,et al.  Expression of estrogen receptor beta1, beta2, and beta5 messenger RNAs in human breast tissue. , 1999, Cancer research.

[13]  F. Miralles,et al.  Characterization of the proximal estrogen-responsive element of human cathepsin D gene. , 1994, Molecular endocrinology.