Reshaping of the androgen-driven chromatin landscape in normal prostate cells by early cancer drivers and effect on therapeutic sensitivity

Ivana Grbesa; Michael A. Augello; Deli Liu; Dylan R. McNally; Christopher D. Gaffney; Dennis Huang; Kevin Lin; Daria Ivenitsky; Ramy Goueli; Brian D. Robinson; Francesca Khani; Lesa D. Deonarine; Mirjam Blattner; Olivier Elemento; Elai Davicioni; Andrea Sboner; Christopher E. Barbieri

doi:10.1016/j.celrep.2021.109625

Reshaping of the androgen-driven chromatin landscape in normal prostate cells by early cancer drivers and effect on therapeutic sensitivity

Ivana Grbesa, Michael A. Augello, Deli Liu, Dylan R. McNally, Christopher D. Gaffney, Dennis Huang, Kevin Lin, Daria Ivenitsky, Ramy Goueli, Brian D. Robinson, Francesca Khani, Lesa D. Deonarine, Mirjam Blattner, Olivier Elemento, Elai Davicioni, Andrea Sboner, Christopher E. Barbieri

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

10 Scopus citations

Abstract

The normal androgen receptor (AR) cistrome and transcriptional program are fundamentally altered in prostate cancer (PCa). Here, we profile the chromatin landscape and AR-directed transcriptional program in normal prostate cells and show the impact of SPOP mutations, an early event in prostate tumorigenesis. In genetically normal mouse prostate organoids, SPOP mutation results in accessibility and AR binding patterns similar to that of human PCa. Consistent with dependence on AR signaling, castration of SPOP mutant mouse models results in the loss of neoplastic phenotypes, and human SPOP mutant PCa shows a favorable response to AR-targeted therapies. Together, these data validate mouse prostate organoids as a robust model for studying epigenomic and transcriptional alterations in normal prostate, provide valuable datasets for further studies, and show that a single genomic alteration may be sufficient to reprogram the chromatin of normal prostate cells toward oncogenic phenotypes, with potential therapeutic implications for AR-targeting therapies.

Original language	English (US)
Article number	109625
Journal	Cell Reports
Volume	36
Issue number	10
DOIs	https://doi.org/10.1016/j.celrep.2021.109625
State	Published - Sep 7 2021
Externally published	Yes

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)

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10.1016/j.celrep.2021.109625

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Grbesa, I., Augello, M. A., Liu, D., McNally, D. R., Gaffney, C. D., Huang, D., Lin, K., Ivenitsky, D., Goueli, R., Robinson, B. D., Khani, F., Deonarine, L. D., Blattner, M., Elemento, O., Davicioni, E., Sboner, A., & Barbieri, C. E. (2021). Reshaping of the androgen-driven chromatin landscape in normal prostate cells by early cancer drivers and effect on therapeutic sensitivity. Cell Reports, 36(10), Article 109625. https://doi.org/10.1016/j.celrep.2021.109625

Grbesa, I, Augello, MA, Liu, D, McNally, DR, Gaffney, CD, Huang, D, Lin, K, Ivenitsky, D, Goueli, R, Robinson, BD, Khani, F, Deonarine, LD, Blattner, M, Elemento, O, Davicioni, E, Sboner, A & Barbieri, CE 2021, 'Reshaping of the androgen-driven chromatin landscape in normal prostate cells by early cancer drivers and effect on therapeutic sensitivity', Cell Reports, vol. 36, no. 10, 109625. https://doi.org/10.1016/j.celrep.2021.109625

@article{58c41e64721945058f4ecb40f93ab3c3,

title = "Reshaping of the androgen-driven chromatin landscape in normal prostate cells by early cancer drivers and effect on therapeutic sensitivity",

abstract = "The normal androgen receptor (AR) cistrome and transcriptional program are fundamentally altered in prostate cancer (PCa). Here, we profile the chromatin landscape and AR-directed transcriptional program in normal prostate cells and show the impact of SPOP mutations, an early event in prostate tumorigenesis. In genetically normal mouse prostate organoids, SPOP mutation results in accessibility and AR binding patterns similar to that of human PCa. Consistent with dependence on AR signaling, castration of SPOP mutant mouse models results in the loss of neoplastic phenotypes, and human SPOP mutant PCa shows a favorable response to AR-targeted therapies. Together, these data validate mouse prostate organoids as a robust model for studying epigenomic and transcriptional alterations in normal prostate, provide valuable datasets for further studies, and show that a single genomic alteration may be sufficient to reprogram the chromatin of normal prostate cells toward oncogenic phenotypes, with potential therapeutic implications for AR-targeting therapies.",

author = "Ivana Grbesa and Augello, {Michael A.} and Deli Liu and McNally, {Dylan R.} and Gaffney, {Christopher D.} and Dennis Huang and Kevin Lin and Daria Ivenitsky and Ramy Goueli and Robinson, {Brian D.} and Francesca Khani and Deonarine, {Lesa D.} and Mirjam Blattner and Olivier Elemento and Elai Davicioni and Andrea Sboner and Barbieri, {Christopher E.}",

note = "Funding Information: We are indebted to the PCa patients and families who contributed to this research. We thank Dr. Dawid Nowak (Weill Cornell Medicine [WCM]) and Dr. Jonathan E. Shoag (WCM) for helpful discussion. We thank Dr. Daphne Campigli Di Giammartino (WCM) for helpful advice regarding the ChIP-seq experiments. We thank Dr. Mark Rubin for mentorship and guidance in developing these projects and reagents. We thank the WCM Genomics Core Facility, the Biospecimen and Pathology Core of WCM SPORE in Prostate Cancer, and the Memorial Sloan Kettering Cancer Center cBioPortal. We are grateful to Drs. Eric Klein, Bruce J. Trock, R. Jeffrey Karnes, and Robert B. Den for patient data. This work was funded by the US NCI (WCM SPORE in Prostate Cancer, P50CA211024-01 , R37CA215040 , and R01CA233650 , to C.E.B.), the Damon Runyon Cancer Research Foundation , the MetLife Foundation Family Clinical Investigator Award (to C.E.B.), and the Prostate Cancer Foundation (to M.A.A. and D.L.). Funding Information: We are indebted to the PCa patients and families who contributed to this research. We thank Dr. Dawid Nowak (Weill Cornell Medicine [WCM]) and Dr. Jonathan E. Shoag (WCM) for helpful discussion. We thank Dr. Daphne Campigli Di Giammartino (WCM) for helpful advice regarding the ChIP-seq experiments. We thank Dr. Mark Rubin for mentorship and guidance in developing these projects and reagents. We thank the WCM Genomics Core Facility, the Biospecimen and Pathology Core of WCM SPORE in Prostate Cancer, and the Memorial Sloan Kettering Cancer Center cBioPortal. We are grateful to Drs. Eric Klein, Bruce J. Trock, R. Jeffrey Karnes, and Robert B. Den for patient data. This work was funded by the US NCI (WCM SPORE in Prostate Cancer, P50CA211024-01, R37CA215040, and R01CA233650, to C.E.B.), the Damon Runyon Cancer Research Foundation, the MetLife Foundation Family Clinical Investigator Award (to C.E.B.), and the Prostate Cancer Foundation (to M.A.A. and D.L.). Conceptualization, I.G. M.A.A. D.L. and C.E.B.; methodology, I.G. D.H. K.L. L.D.D. M.B. R.G. and D.I.; formal analysis, I.G. D.L. D.R.M. and C.D.G.; investigation, I.G.; validation, B.D.R. and F.K.; resources, E.D. L.D.D. C.E.B. and O.E.; writing – original draft, I.G. and C.E.B.; writing – review & editing, I.G. C.E.B. M.A.A. and D.L.; visualization, I.G.; supervision, C.E.B. and A.S.; funding acquisition, C.E.B. C.E.B. is co-inventor on a patent issued to Weill Medical College of Cornell University on SPOP mutations in PCa. E.D. is an employee of GenomeDx. Publisher Copyright: {\textcopyright} 2021 The Authors",

year = "2021",

month = sep,

day = "7",

doi = "10.1016/j.celrep.2021.109625",

language = "English (US)",

volume = "36",

journal = "Cell Reports",

issn = "2211-1247",

publisher = "Cell Press",

number = "10",

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TY - JOUR

T1 - Reshaping of the androgen-driven chromatin landscape in normal prostate cells by early cancer drivers and effect on therapeutic sensitivity

AU - Grbesa, Ivana

AU - Augello, Michael A.

AU - Liu, Deli

AU - McNally, Dylan R.

AU - Gaffney, Christopher D.

AU - Huang, Dennis

AU - Lin, Kevin

AU - Ivenitsky, Daria

AU - Goueli, Ramy

AU - Robinson, Brian D.

AU - Khani, Francesca

AU - Deonarine, Lesa D.

AU - Blattner, Mirjam

AU - Elemento, Olivier

AU - Davicioni, Elai

AU - Sboner, Andrea

AU - Barbieri, Christopher E.

N1 - Funding Information: We are indebted to the PCa patients and families who contributed to this research. We thank Dr. Dawid Nowak (Weill Cornell Medicine [WCM]) and Dr. Jonathan E. Shoag (WCM) for helpful discussion. We thank Dr. Daphne Campigli Di Giammartino (WCM) for helpful advice regarding the ChIP-seq experiments. We thank Dr. Mark Rubin for mentorship and guidance in developing these projects and reagents. We thank the WCM Genomics Core Facility, the Biospecimen and Pathology Core of WCM SPORE in Prostate Cancer, and the Memorial Sloan Kettering Cancer Center cBioPortal. We are grateful to Drs. Eric Klein, Bruce J. Trock, R. Jeffrey Karnes, and Robert B. Den for patient data. This work was funded by the US NCI (WCM SPORE in Prostate Cancer, P50CA211024-01 , R37CA215040 , and R01CA233650 , to C.E.B.), the Damon Runyon Cancer Research Foundation , the MetLife Foundation Family Clinical Investigator Award (to C.E.B.), and the Prostate Cancer Foundation (to M.A.A. and D.L.). Funding Information: We are indebted to the PCa patients and families who contributed to this research. We thank Dr. Dawid Nowak (Weill Cornell Medicine [WCM]) and Dr. Jonathan E. Shoag (WCM) for helpful discussion. We thank Dr. Daphne Campigli Di Giammartino (WCM) for helpful advice regarding the ChIP-seq experiments. We thank Dr. Mark Rubin for mentorship and guidance in developing these projects and reagents. We thank the WCM Genomics Core Facility, the Biospecimen and Pathology Core of WCM SPORE in Prostate Cancer, and the Memorial Sloan Kettering Cancer Center cBioPortal. We are grateful to Drs. Eric Klein, Bruce J. Trock, R. Jeffrey Karnes, and Robert B. Den for patient data. This work was funded by the US NCI (WCM SPORE in Prostate Cancer, P50CA211024-01, R37CA215040, and R01CA233650, to C.E.B.), the Damon Runyon Cancer Research Foundation, the MetLife Foundation Family Clinical Investigator Award (to C.E.B.), and the Prostate Cancer Foundation (to M.A.A. and D.L.). Conceptualization, I.G. M.A.A. D.L. and C.E.B.; methodology, I.G. D.H. K.L. L.D.D. M.B. R.G. and D.I.; formal analysis, I.G. D.L. D.R.M. and C.D.G.; investigation, I.G.; validation, B.D.R. and F.K.; resources, E.D. L.D.D. C.E.B. and O.E.; writing – original draft, I.G. and C.E.B.; writing – review & editing, I.G. C.E.B. M.A.A. and D.L.; visualization, I.G.; supervision, C.E.B. and A.S.; funding acquisition, C.E.B. C.E.B. is co-inventor on a patent issued to Weill Medical College of Cornell University on SPOP mutations in PCa. E.D. is an employee of GenomeDx. Publisher Copyright: © 2021 The Authors

PY - 2021/9/7

Y1 - 2021/9/7

N2 - The normal androgen receptor (AR) cistrome and transcriptional program are fundamentally altered in prostate cancer (PCa). Here, we profile the chromatin landscape and AR-directed transcriptional program in normal prostate cells and show the impact of SPOP mutations, an early event in prostate tumorigenesis. In genetically normal mouse prostate organoids, SPOP mutation results in accessibility and AR binding patterns similar to that of human PCa. Consistent with dependence on AR signaling, castration of SPOP mutant mouse models results in the loss of neoplastic phenotypes, and human SPOP mutant PCa shows a favorable response to AR-targeted therapies. Together, these data validate mouse prostate organoids as a robust model for studying epigenomic and transcriptional alterations in normal prostate, provide valuable datasets for further studies, and show that a single genomic alteration may be sufficient to reprogram the chromatin of normal prostate cells toward oncogenic phenotypes, with potential therapeutic implications for AR-targeting therapies.

AB - The normal androgen receptor (AR) cistrome and transcriptional program are fundamentally altered in prostate cancer (PCa). Here, we profile the chromatin landscape and AR-directed transcriptional program in normal prostate cells and show the impact of SPOP mutations, an early event in prostate tumorigenesis. In genetically normal mouse prostate organoids, SPOP mutation results in accessibility and AR binding patterns similar to that of human PCa. Consistent with dependence on AR signaling, castration of SPOP mutant mouse models results in the loss of neoplastic phenotypes, and human SPOP mutant PCa shows a favorable response to AR-targeted therapies. Together, these data validate mouse prostate organoids as a robust model for studying epigenomic and transcriptional alterations in normal prostate, provide valuable datasets for further studies, and show that a single genomic alteration may be sufficient to reprogram the chromatin of normal prostate cells toward oncogenic phenotypes, with potential therapeutic implications for AR-targeting therapies.

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JO - Cell Reports

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Reshaping of the androgen-driven chromatin landscape in normal prostate cells by early cancer drivers and effect on therapeutic sensitivity

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