ESR1 and p53 interactome alteration defines mechanisms of tamoxifen response in luminal breast cancer

Chetan C. Oturkar; Spencer R. Rosario; Alan D. Hutson; Adrianne Groman; Stephen B. Edge; Carl D. Morrison; Wendy M. Swetzig; Jianmin Wang; Jun Hyoung Park; Benny Abraham Kaipparettu; Prashant K. Singh; Shicha Kumar; Helen H. Cappuccino; Manish Ranjan; Araba Adjei; Mohammad Ghasemi; Andrew K.L. Goey; Swati Kulkarni; Gokul M. Das

doi:10.1016/j.isci.2024.109995

ESR1 and p53 interactome alteration defines mechanisms of tamoxifen response in luminal breast cancer

Chetan C. Oturkar
, Spencer R. Rosario
, Alan D. Hutson
, Adrianne Groman
, Stephen B. Edge
, Carl D. Morrison
, Wendy M. Swetzig
, Jianmin Wang
, Jun Hyoung Park
, Benny Abraham Kaipparettu
, Prashant K. Singh
, Shicha Kumar
, Helen H. Cappuccino
, Manish Ranjan
, Araba Adjei
, Mohammad Ghasemi
, Andrew K.L. Goey
, Swati Kulkarni
, Gokul M. Das

Department of Biostatistics

Roswell Park Cancer Institute
Baylor College of Medicine
Northwestern University

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

6 Scopus citations

Abstract

The canonical mechanism behind tamoxifen's therapeutic effect on estrogen receptor α/ESR1+ breast cancers is inhibition of ESR1-dependent estrogen signaling. Although ESR1+ tumors expressing wild-type p53 were reported to be more responsive to tamoxifen (Tam) therapy, p53 has not been factored into choice of this therapy and the mechanism underlying the role of p53 in Tam response remains unclear. In a window-of-opportunity trial on patients with newly diagnosed stage I–III ESR1+/HER2/wild-type p53 breast cancer who were randomized to arms with or without Tam prior to surgery, we reveal that the ESR1-p53 interaction in tumors was inhibited by Tam. This resulted in functional reactivation of p53 leading to transcriptional reprogramming that favors tumor-suppressive signaling, as well as downregulation of oncogenic pathways. These findings illustrating the convergence of ESR1 and p53 signaling during Tam therapy enrich mechanistic understanding of the impact of p53 on the response to Tam therapy.

Original language	English
Article number	109995
Journal	iScience
Volume	27
Issue number	6
DOIs	https://doi.org/10.1016/j.isci.2024.109995
State	Published - Jun 21 2024

Keywords

Cancer
Health sciences
Transcriptomics

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10.1016/j.isci.2024.109995

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Oturkar, C. C., Rosario, S. R., Hutson, A. D., Groman, A., Edge, S. B., Morrison, C. D., Swetzig, W. M., Wang, J., Park, J. H., Kaipparettu, B. A., Singh, P. K., Kumar, S., Cappuccino, H. H., Ranjan, M., Adjei, A., Ghasemi, M., Goey, A. K. L., Kulkarni, S., & Das, G. M. (2024). ESR1 and p53 interactome alteration defines mechanisms of tamoxifen response in luminal breast cancer. iScience, 27(6), Article 109995. https://doi.org/10.1016/j.isci.2024.109995

@article{01e33821436a4eb3ba7e4565a2b8d452,

title = "ESR1 and p53 interactome alteration defines mechanisms of tamoxifen response in luminal breast cancer",

abstract = "The canonical mechanism behind tamoxifen's therapeutic effect on estrogen receptor α/ESR1+ breast cancers is inhibition of ESR1-dependent estrogen signaling. Although ESR1+ tumors expressing wild-type p53 were reported to be more responsive to tamoxifen (Tam) therapy, p53 has not been factored into choice of this therapy and the mechanism underlying the role of p53 in Tam response remains unclear. In a window-of-opportunity trial on patients with newly diagnosed stage I–III ESR1+/HER2/wild-type p53 breast cancer who were randomized to arms with or without Tam prior to surgery, we reveal that the ESR1-p53 interaction in tumors was inhibited by Tam. This resulted in functional reactivation of p53 leading to transcriptional reprogramming that favors tumor-suppressive signaling, as well as downregulation of oncogenic pathways. These findings illustrating the convergence of ESR1 and p53 signaling during Tam therapy enrich mechanistic understanding of the impact of p53 on the response to Tam therapy.",

keywords = "Cancer, Health sciences, Transcriptomics",

author = "Oturkar, \{Chetan C.\} and Rosario, \{Spencer R.\} and Hutson, \{Alan D.\} and Adrianne Groman and Edge, \{Stephen B.\} and Morrison, \{Carl D.\} and Swetzig, \{Wendy M.\} and Jianmin Wang and Park, \{Jun Hyoung\} and Kaipparettu, \{Benny Abraham\} and Singh, \{Prashant K.\} and Shicha Kumar and Cappuccino, \{Helen H.\} and Manish Ranjan and Araba Adjei and Mohammad Ghasemi and Goey, \{Andrew K.L.\} and Swati Kulkarni and Das, \{Gokul M.\}",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors",

year = "2024",

month = jun,

day = "21",

doi = "10.1016/j.isci.2024.109995",

language = "English",

volume = "27",

journal = "iScience",

issn = "2589-0042",

publisher = "Elsevier Inc.",

number = "6",

}

Oturkar, CC, Rosario, SR, Hutson, AD, Groman, A, Edge, SB, Morrison, CD, Swetzig, WM, Wang, J, Park, JH, Kaipparettu, BA, Singh, PK, Kumar, S, Cappuccino, HH, Ranjan, M, Adjei, A, Ghasemi, M, Goey, AKL, Kulkarni, S & Das, GM 2024, 'ESR1 and p53 interactome alteration defines mechanisms of tamoxifen response in luminal breast cancer', iScience, vol. 27, no. 6, 109995. https://doi.org/10.1016/j.isci.2024.109995

TY - JOUR

T1 - ESR1 and p53 interactome alteration defines mechanisms of tamoxifen response in luminal breast cancer

AU - Oturkar, Chetan C.

AU - Rosario, Spencer R.

AU - Hutson, Alan D.

AU - Groman, Adrianne

AU - Edge, Stephen B.

AU - Morrison, Carl D.

AU - Swetzig, Wendy M.

AU - Wang, Jianmin

AU - Park, Jun Hyoung

AU - Kaipparettu, Benny Abraham

AU - Singh, Prashant K.

AU - Kumar, Shicha

AU - Cappuccino, Helen H.

AU - Ranjan, Manish

AU - Adjei, Araba

AU - Ghasemi, Mohammad

AU - Goey, Andrew K.L.

AU - Kulkarni, Swati

AU - Das, Gokul M.

PY - 2024/6/21

Y1 - 2024/6/21

N2 - The canonical mechanism behind tamoxifen's therapeutic effect on estrogen receptor α/ESR1+ breast cancers is inhibition of ESR1-dependent estrogen signaling. Although ESR1+ tumors expressing wild-type p53 were reported to be more responsive to tamoxifen (Tam) therapy, p53 has not been factored into choice of this therapy and the mechanism underlying the role of p53 in Tam response remains unclear. In a window-of-opportunity trial on patients with newly diagnosed stage I–III ESR1+/HER2/wild-type p53 breast cancer who were randomized to arms with or without Tam prior to surgery, we reveal that the ESR1-p53 interaction in tumors was inhibited by Tam. This resulted in functional reactivation of p53 leading to transcriptional reprogramming that favors tumor-suppressive signaling, as well as downregulation of oncogenic pathways. These findings illustrating the convergence of ESR1 and p53 signaling during Tam therapy enrich mechanistic understanding of the impact of p53 on the response to Tam therapy.

AB - The canonical mechanism behind tamoxifen's therapeutic effect on estrogen receptor α/ESR1+ breast cancers is inhibition of ESR1-dependent estrogen signaling. Although ESR1+ tumors expressing wild-type p53 were reported to be more responsive to tamoxifen (Tam) therapy, p53 has not been factored into choice of this therapy and the mechanism underlying the role of p53 in Tam response remains unclear. In a window-of-opportunity trial on patients with newly diagnosed stage I–III ESR1+/HER2/wild-type p53 breast cancer who were randomized to arms with or without Tam prior to surgery, we reveal that the ESR1-p53 interaction in tumors was inhibited by Tam. This resulted in functional reactivation of p53 leading to transcriptional reprogramming that favors tumor-suppressive signaling, as well as downregulation of oncogenic pathways. These findings illustrating the convergence of ESR1 and p53 signaling during Tam therapy enrich mechanistic understanding of the impact of p53 on the response to Tam therapy.

KW - Cancer

KW - Health sciences

KW - Transcriptomics

UR - https://www.scopus.com/pages/publications/85194166535

U2 - 10.1016/j.isci.2024.109995

DO - 10.1016/j.isci.2024.109995

M3 - Article

AN - SCOPUS:85194166535

SN - 2589-0042

VL - 27

JO - iScience

JF - iScience

IS - 6

M1 - 109995

ER -

ESR1 and p53 interactome alteration defines mechanisms of tamoxifen response in luminal breast cancer

Abstract

Keywords

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