The ER-positive/PgR-negative breast cancer phenotype is not associated with mutations within the DNA binding domain

We have used in vitro DNA binding assays as a measure of estrogen receptor (ER) function in human breast tumors. We found that the majority of ER+ (25 ER+/progesterone receptor [PgR]+, and 25 ER+/PgR-) tumors we examined were capable of binding consensus estrogen response element (ERE) oligonucleoti...

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Veröffentlicht in:	Breast cancer research and treatment 1993, Vol.26 (2), p.191-202
Hauptverfasser:	Fuqua, S A, Allred, D C, Elledge, R M, Krieg, S L, Benedix, M G, Nawaz, Z, O'Malley, B W, Greene, G L, McGuire, W L
Format:	Artikel
Sprache:	eng
Schlagworte:	Base Sequence Breast Neoplasms - chemistry Breast Neoplasms - genetics DNA, Neoplasm - genetics DNA-Binding Proteins - analysis DNA-Binding Proteins - genetics Exons - genetics Female Humans Molecular Sequence Data Mutation Phenotype Receptors, Estrogen - analysis Receptors, Estrogen - genetics Receptors, Progesterone - analysis Sequence Analysis, DNA Transcription, Genetic
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container_end_page	202
container_issue	2
container_start_page	191
container_title	Breast cancer research and treatment
container_volume	26
creator	Fuqua, S A Allred, D C Elledge, R M Krieg, S L Benedix, M G Nawaz, Z O'Malley, B W Greene, G L McGuire, W L
description	We have used in vitro DNA binding assays as a measure of estrogen receptor (ER) function in human breast tumors. We found that the majority of ER+ (25 ER+/progesterone receptor [PgR]+, and 25 ER+/PgR-) tumors we examined were capable of binding consensus estrogen response element (ERE) oligonucleotides in this assay system. We found significant proteolytic activity in many of the tumors such that protease inhibitors were found to be essential during the preparation of tumor extracts. We next applied direct sequence analysis of the ER DNA binding domain of several of these tumors, and determined that the ER+/PgR- breast tumors did not contain mutations within the DNA binding domain which might explain their apparent discordant receptor phenotype. We did identify an alternatively spliced ER variant missing exon 3 of the DNA binding domain. This variant was unable to function as a transcriptional inducer of an estrogen-responsive reporter in a yeast assay system. Furthermore, the exon 3 ER deletion variant was expressed at equivalent levels in all of the ER+ breast tumors, so that it does not appear to be involved in the evolution of the ER+/PgR- breast cancer phenotype.
doi_str_mv	10.1007/BF00689692
format	Article
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We found that the majority of ER+ (25 ER+/progesterone receptor [PgR]+, and 25 ER+/PgR-) tumors we examined were capable of binding consensus estrogen response element (ERE) oligonucleotides in this assay system. We found significant proteolytic activity in many of the tumors such that protease inhibitors were found to be essential during the preparation of tumor extracts. We next applied direct sequence analysis of the ER DNA binding domain of several of these tumors, and determined that the ER+/PgR- breast tumors did not contain mutations within the DNA binding domain which might explain their apparent discordant receptor phenotype. We did identify an alternatively spliced ER variant missing exon 3 of the DNA binding domain. This variant was unable to function as a transcriptional inducer of an estrogen-responsive reporter in a yeast assay system. 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We found that the majority of ER+ (25 ER+/progesterone receptor [PgR]+, and 25 ER+/PgR-) tumors we examined were capable of binding consensus estrogen response element (ERE) oligonucleotides in this assay system. We found significant proteolytic activity in many of the tumors such that protease inhibitors were found to be essential during the preparation of tumor extracts. We next applied direct sequence analysis of the ER DNA binding domain of several of these tumors, and determined that the ER+/PgR- breast tumors did not contain mutations within the DNA binding domain which might explain their apparent discordant receptor phenotype. We did identify an alternatively spliced ER variant missing exon 3 of the DNA binding domain. This variant was unable to function as a transcriptional inducer of an estrogen-responsive reporter in a yeast assay system. 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We found that the majority of ER+ (25 ER+/progesterone receptor [PgR]+, and 25 ER+/PgR-) tumors we examined were capable of binding consensus estrogen response element (ERE) oligonucleotides in this assay system. We found significant proteolytic activity in many of the tumors such that protease inhibitors were found to be essential during the preparation of tumor extracts. We next applied direct sequence analysis of the ER DNA binding domain of several of these tumors, and determined that the ER+/PgR- breast tumors did not contain mutations within the DNA binding domain which might explain their apparent discordant receptor phenotype. We did identify an alternatively spliced ER variant missing exon 3 of the DNA binding domain. This variant was unable to function as a transcriptional inducer of an estrogen-responsive reporter in a yeast assay system. 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subjects	Base Sequence Breast Neoplasms - chemistry Breast Neoplasms - genetics DNA, Neoplasm - genetics DNA-Binding Proteins - analysis DNA-Binding Proteins - genetics Exons - genetics Female Humans Molecular Sequence Data Mutation Phenotype Receptors, Estrogen - analysis Receptors, Estrogen - genetics Receptors, Progesterone - analysis Sequence Analysis, DNA Transcription, Genetic
title	The ER-positive/PgR-negative breast cancer phenotype is not associated with mutations within the DNA binding domain
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