ETS factors reprogram the androgen receptor cistrome and prime prostate tumorigenesis in response to PTEN loss

Yu Chen; Ping Chi; Shira Rockowitz; Phillip J. Iaquinta; Tambudzai Shamu; Shipra Shukla; Dong Gao; Inna Sirota; Brett S. Carver; John Wongvipat; Howard I. Scher; Deyou Zheng; Charles L. Sawyers

doi:10.1038/nm.3216

ETS factors reprogram the androgen receptor cistrome and prime prostate tumorigenesis in response to PTEN loss

Yu Chen, Ping Chi, Shira Rockowitz, Phillip J. Iaquinta, Tambudzai Shamu, Shipra Shukla, Dong Gao, Inna Sirota, Brett S. Carver, John Wongvipat, Howard I. Scher, Deyou Zheng, Charles L. Sawyers

Neurology

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

228 Scopus citations

Abstract

Studies of ETS-mediated prostate oncogenesis have been hampered by a lack of suitable experimental systems. Here we describe a new conditional mouse model that shows robust, homogenous ERG expression throughout the prostate. When combined with homozygous Pten loss, the mice developed accelerated, highly penetrant invasive prostate cancer. In mouse prostate tissue, ERG markedly increased androgen receptor (AR) binding. Robust ERG-mediated transcriptional changes, observed only in the setting of Pten loss, included the restoration of AR transcriptional output and upregulation of genes involved in cell death, migration, inflammation and angiogenesis. Similarly, ETS variant 1 (ETV1) positively regulated the AR cistrome and transcriptional output in ETV1-translocated, PTEN-deficient human prostate cancer cells. In two large clinical cohorts, expression of ERG and ETV1 correlated with higher AR transcriptional output in PTEN-deficient prostate cancer specimens. We propose that ETS factors cause prostate-specific transformation by altering the AR cistrome, priming the prostate epithelium to respond to aberrant upstream signals such as PTEN loss.

Original language	English (US)
Pages (from-to)	1023-1029
Number of pages	7
Journal	Nature Medicine
Volume	19
Issue number	8
DOIs	https://doi.org/10.1038/nm.3216
State	Published - Aug 2013

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/nm.3216

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@article{e59d55fff16645b28154de1ac795920f,

title = "ETS factors reprogram the androgen receptor cistrome and prime prostate tumorigenesis in response to PTEN loss",

abstract = "Studies of ETS-mediated prostate oncogenesis have been hampered by a lack of suitable experimental systems. Here we describe a new conditional mouse model that shows robust, homogenous ERG expression throughout the prostate. When combined with homozygous Pten loss, the mice developed accelerated, highly penetrant invasive prostate cancer. In mouse prostate tissue, ERG markedly increased androgen receptor (AR) binding. Robust ERG-mediated transcriptional changes, observed only in the setting of Pten loss, included the restoration of AR transcriptional output and upregulation of genes involved in cell death, migration, inflammation and angiogenesis. Similarly, ETS variant 1 (ETV1) positively regulated the AR cistrome and transcriptional output in ETV1-translocated, PTEN-deficient human prostate cancer cells. In two large clinical cohorts, expression of ERG and ETV1 correlated with higher AR transcriptional output in PTEN-deficient prostate cancer specimens. We propose that ETS factors cause prostate-specific transformation by altering the AR cistrome, priming the prostate epithelium to respond to aberrant upstream signals such as PTEN loss.",

author = "Yu Chen and Ping Chi and Shira Rockowitz and Iaquinta, {Phillip J.} and Tambudzai Shamu and Shipra Shukla and Dong Gao and Inna Sirota and Carver, {Brett S.} and John Wongvipat and Scher, {Howard I.} and Deyou Zheng and Sawyers, {Charles L.}",

note = "Funding Information: We thank the MSKCC Gene Targeting (C. Yang), Mouse Genetics Core (W. Mark and P. Romanienko), Genomics Core Laboratory (A. Viale), Molecular Cytogenetics (M. Leversha) and Molecular Cytology (K. Manova) core facilities and the Rockefeller University Genomics Core (S. Dewell). This work is supported in part by the Howard Hughes Medical Institute (C.L.S.), the US National Cancer Institute (K08CA140946, Y.C.; 1K08CA151660-01A1, P.C.; U01 CA141502, C.L.S.; and P50CA092629, C.L.S. and B.S.C.), the US Department of Defense (W81XWH-10-1-0197, Y.C.), the Prostate Cancer Foundation (Y.C. and B.S.C.), the Starr Cancer Consortium (Y.C., P.C., C.L.S. and D.Z.) and the US National Institute of Mental Health (R21MH099452, D.Z.). We thank J.P. Martinez-Barbera (University College London) for plasmids, C.D. Allis, F. Giancotti and J. Otero for conceptual input, N. Schultz for bioinformatics assistance and A. Gopalan and S. Couto for pathology input.",

year = "2013",

month = aug,

doi = "10.1038/nm.3216",

language = "English (US)",

volume = "19",

pages = "1023--1029",

journal = "Nature Medicine",

issn = "1078-8956",

publisher = "Nature Publishing Group",

number = "8",

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T1 - ETS factors reprogram the androgen receptor cistrome and prime prostate tumorigenesis in response to PTEN loss

AU - Chen, Yu

AU - Chi, Ping

AU - Rockowitz, Shira

AU - Iaquinta, Phillip J.

AU - Shamu, Tambudzai

AU - Shukla, Shipra

AU - Gao, Dong

AU - Sirota, Inna

AU - Carver, Brett S.

AU - Wongvipat, John

AU - Scher, Howard I.

AU - Zheng, Deyou

AU - Sawyers, Charles L.

N1 - Funding Information: We thank the MSKCC Gene Targeting (C. Yang), Mouse Genetics Core (W. Mark and P. Romanienko), Genomics Core Laboratory (A. Viale), Molecular Cytogenetics (M. Leversha) and Molecular Cytology (K. Manova) core facilities and the Rockefeller University Genomics Core (S. Dewell). This work is supported in part by the Howard Hughes Medical Institute (C.L.S.), the US National Cancer Institute (K08CA140946, Y.C.; 1K08CA151660-01A1, P.C.; U01 CA141502, C.L.S.; and P50CA092629, C.L.S. and B.S.C.), the US Department of Defense (W81XWH-10-1-0197, Y.C.), the Prostate Cancer Foundation (Y.C. and B.S.C.), the Starr Cancer Consortium (Y.C., P.C., C.L.S. and D.Z.) and the US National Institute of Mental Health (R21MH099452, D.Z.). We thank J.P. Martinez-Barbera (University College London) for plasmids, C.D. Allis, F. Giancotti and J. Otero for conceptual input, N. Schultz for bioinformatics assistance and A. Gopalan and S. Couto for pathology input.

PY - 2013/8

Y1 - 2013/8

N2 - Studies of ETS-mediated prostate oncogenesis have been hampered by a lack of suitable experimental systems. Here we describe a new conditional mouse model that shows robust, homogenous ERG expression throughout the prostate. When combined with homozygous Pten loss, the mice developed accelerated, highly penetrant invasive prostate cancer. In mouse prostate tissue, ERG markedly increased androgen receptor (AR) binding. Robust ERG-mediated transcriptional changes, observed only in the setting of Pten loss, included the restoration of AR transcriptional output and upregulation of genes involved in cell death, migration, inflammation and angiogenesis. Similarly, ETS variant 1 (ETV1) positively regulated the AR cistrome and transcriptional output in ETV1-translocated, PTEN-deficient human prostate cancer cells. In two large clinical cohorts, expression of ERG and ETV1 correlated with higher AR transcriptional output in PTEN-deficient prostate cancer specimens. We propose that ETS factors cause prostate-specific transformation by altering the AR cistrome, priming the prostate epithelium to respond to aberrant upstream signals such as PTEN loss.

AB - Studies of ETS-mediated prostate oncogenesis have been hampered by a lack of suitable experimental systems. Here we describe a new conditional mouse model that shows robust, homogenous ERG expression throughout the prostate. When combined with homozygous Pten loss, the mice developed accelerated, highly penetrant invasive prostate cancer. In mouse prostate tissue, ERG markedly increased androgen receptor (AR) binding. Robust ERG-mediated transcriptional changes, observed only in the setting of Pten loss, included the restoration of AR transcriptional output and upregulation of genes involved in cell death, migration, inflammation and angiogenesis. Similarly, ETS variant 1 (ETV1) positively regulated the AR cistrome and transcriptional output in ETV1-translocated, PTEN-deficient human prostate cancer cells. In two large clinical cohorts, expression of ERG and ETV1 correlated with higher AR transcriptional output in PTEN-deficient prostate cancer specimens. We propose that ETS factors cause prostate-specific transformation by altering the AR cistrome, priming the prostate epithelium to respond to aberrant upstream signals such as PTEN loss.

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U2 - 10.1038/nm.3216

DO - 10.1038/nm.3216

M3 - Article

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AN - SCOPUS:84882285291

SN - 1078-8956

VL - 19

SP - 1023

EP - 1029

JO - Nature Medicine

JF - Nature Medicine

IS - 8

ER -

ETS factors reprogram the androgen receptor cistrome and prime prostate tumorigenesis in response to PTEN loss

Abstract

ASJC Scopus subject areas

UN SDGs

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