Genomic analysis of estrogen cascade reveals histone variant H2A.Z associated with breast cancer progression

Sujun Hua; Caleb B. Kallen; Ruby Dhar; Maria T. Baquero; Christopher E. Mason; Beth A. Russell; Parantu K. Shah; Jiang Liu; Andrey Khramtsov; Maria S. Tretiakova; Thomas N. Krausz; Olufunmilayo I. Olopade; David L. Rimm; Kevin P. White

doi:10.1038/msb.2008.25

Genomic analysis of estrogen cascade reveals histone variant H2A.Z associated with breast cancer progression

Sujun Hua, Caleb B. Kallen, Ruby Dhar, Maria T. Baquero, Christopher E. Mason, Beth A. Russell, Parantu K. Shah, Jiang Liu, Andrey Khramtsov, Maria S. Tretiakova, Thomas N. Krausz, Olufunmilayo I. Olopade, David L. Rimm, Kevin P. White

Genomic Medicine

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

158 Scopus citations

Abstract

We demonstrate an integrated approach to the study of a transcriptional regulatory cascade involved in the progression of breast cancer and we identify a protein associated with disease progression. Using chromatin immunoprecipitation and genome tiling arrays, whole genome mapping of transcription factor-binding sites was combined with gene expression profiling to identify genes involved in the proliferative response to estrogen (E2). Using RNA interference, selected ERα and c-MYC gene targets were knocked down to identify mediators of E2-stimulated cell proliferation. Tissue microarray screening revealed that high expression of an epigenetic factor, the E2-inducible histone variant H2A.Z, is significantly associated with lymph node metastasis and decreased breast cancer survival. Detection of H2A.Z levels independently increased the prognostic power of biomarkers currently in clinical use. This integrated approach has accelerated the identification of a molecule linked to breast cancer progression, has implications for diagnostic and therapeutic interventions, and can be applied to a wide range of cancers.

Original language	English (US)
Article number	188
Journal	Molecular Systems Biology
Volume	4
DOIs	https://doi.org/10.1038/msb.2008.25
State	Published - 2008

Keywords

Breast
Cancer
Chromatin
Estrogen
Histone variant

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology
General Immunology and Microbiology
General Agricultural and Biological Sciences
Applied Mathematics

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Hua, S., Kallen, C. B., Dhar, R., Baquero, M. T., Mason, C. E., Russell, B. A., Shah, P. K., Liu, J., Khramtsov, A., Tretiakova, M. S., Krausz, T. N., Olopade, O. I., Rimm, D. L., & White, K. P. (2008). Genomic analysis of estrogen cascade reveals histone variant H2A.Z associated with breast cancer progression. Molecular Systems Biology, 4, Article 188. https://doi.org/10.1038/msb.2008.25

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title = "Genomic analysis of estrogen cascade reveals histone variant H2A.Z associated with breast cancer progression",

abstract = "We demonstrate an integrated approach to the study of a transcriptional regulatory cascade involved in the progression of breast cancer and we identify a protein associated with disease progression. Using chromatin immunoprecipitation and genome tiling arrays, whole genome mapping of transcription factor-binding sites was combined with gene expression profiling to identify genes involved in the proliferative response to estrogen (E2). Using RNA interference, selected ERα and c-MYC gene targets were knocked down to identify mediators of E2-stimulated cell proliferation. Tissue microarray screening revealed that high expression of an epigenetic factor, the E2-inducible histone variant H2A.Z, is significantly associated with lymph node metastasis and decreased breast cancer survival. Detection of H2A.Z levels independently increased the prognostic power of biomarkers currently in clinical use. This integrated approach has accelerated the identification of a molecule linked to breast cancer progression, has implications for diagnostic and therapeutic interventions, and can be applied to a wide range of cancers.",

keywords = "Breast, Cancer, Chromatin, Estrogen, Histone variant",

author = "Sujun Hua and Kallen, {Caleb B.} and Ruby Dhar and Baquero, {Maria T.} and Mason, {Christopher E.} and Russell, {Beth A.} and Shah, {Parantu K.} and Jiang Liu and Andrey Khramtsov and Tretiakova, {Maria S.} and Krausz, {Thomas N.} and Olopade, {Olufunmilayo I.} and Rimm, {David L.} and White, {Kevin P.}",

year = "2008",

doi = "10.1038/msb.2008.25",

language = "English (US)",

volume = "4",

journal = "Molecular Systems Biology",

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T1 - Genomic analysis of estrogen cascade reveals histone variant H2A.Z associated with breast cancer progression

AU - Hua, Sujun

AU - Kallen, Caleb B.

AU - Dhar, Ruby

AU - Baquero, Maria T.

AU - Mason, Christopher E.

AU - Russell, Beth A.

AU - Shah, Parantu K.

AU - Liu, Jiang

AU - Khramtsov, Andrey

AU - Tretiakova, Maria S.

AU - Krausz, Thomas N.

AU - Olopade, Olufunmilayo I.

AU - Rimm, David L.

AU - White, Kevin P.

PY - 2008

Y1 - 2008

N2 - We demonstrate an integrated approach to the study of a transcriptional regulatory cascade involved in the progression of breast cancer and we identify a protein associated with disease progression. Using chromatin immunoprecipitation and genome tiling arrays, whole genome mapping of transcription factor-binding sites was combined with gene expression profiling to identify genes involved in the proliferative response to estrogen (E2). Using RNA interference, selected ERα and c-MYC gene targets were knocked down to identify mediators of E2-stimulated cell proliferation. Tissue microarray screening revealed that high expression of an epigenetic factor, the E2-inducible histone variant H2A.Z, is significantly associated with lymph node metastasis and decreased breast cancer survival. Detection of H2A.Z levels independently increased the prognostic power of biomarkers currently in clinical use. This integrated approach has accelerated the identification of a molecule linked to breast cancer progression, has implications for diagnostic and therapeutic interventions, and can be applied to a wide range of cancers.

AB - We demonstrate an integrated approach to the study of a transcriptional regulatory cascade involved in the progression of breast cancer and we identify a protein associated with disease progression. Using chromatin immunoprecipitation and genome tiling arrays, whole genome mapping of transcription factor-binding sites was combined with gene expression profiling to identify genes involved in the proliferative response to estrogen (E2). Using RNA interference, selected ERα and c-MYC gene targets were knocked down to identify mediators of E2-stimulated cell proliferation. Tissue microarray screening revealed that high expression of an epigenetic factor, the E2-inducible histone variant H2A.Z, is significantly associated with lymph node metastasis and decreased breast cancer survival. Detection of H2A.Z levels independently increased the prognostic power of biomarkers currently in clinical use. This integrated approach has accelerated the identification of a molecule linked to breast cancer progression, has implications for diagnostic and therapeutic interventions, and can be applied to a wide range of cancers.

KW - Breast

KW - Cancer

KW - Chromatin

KW - Estrogen

KW - Histone variant

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JO - Molecular Systems Biology

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Genomic analysis of estrogen cascade reveals histone variant H2A.Z associated with breast cancer progression

Abstract

Keywords

ASJC Scopus subject areas

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