Genome-scale CRISPR screens identify PTGES3 as a direct modulator of androgen receptor function in advanced prostate cancer

Haolong Li; James E. Melnyk; Becky Xu Hua Fu; Raunak Shrestha; Meng Zhang; Martin Sjöström; Siyu Feng; Jasmine A. Anderson; Wanting Han; Lisa N. Chesner; Hyun Jin Shin; Tatyanah Farsh; Humberto J. Suarez; Seema Nath; Jonathan Chou; Rajdeep Das; Emily A. Egusa; Marsha Calvert; Audrey Kishishita; Abhilash Barpanda; Jun Zhu; Ashutosh Maheshwari; William S. Chen; Mohammed Alshalalfa; Aidan Winters; Junjie T. Hua; Tianyi Liu; Elai Davicioni; Arun P. Wiita; Bradley A. Stohr; Javed Siddiqui; Bo Huang; Eric J. Small; Kevan M. Shokat; Peter S. Nelson; David A. Quigley; Elizabeth V. Wasmuth; Luke A. Gilbert; Felix Y. Feng

doi:10.1038/s41588-025-02388-8

Genome-scale CRISPR screens identify PTGES3 as a direct modulator of androgen receptor function in advanced prostate cancer

Haolong Li
, James E. Melnyk
, Becky Xu Hua Fu
, Raunak Shrestha
, Meng Zhang
, Martin Sjöström
, Siyu Feng
, Jasmine A. Anderson
, Wanting Han
, Lisa N. Chesner
, Hyun Jin Shin
, Tatyanah Farsh
, Humberto J. Suarez
, Seema Nath
, Jonathan Chou
, Rajdeep Das
, Emily A. Egusa
, Marsha Calvert
, Audrey Kishishita
, Abhilash Barpanda

Jun Zhu, Ashutosh Maheshwari, William S. Chen, Mohammed Alshalalfa, Aidan Winters, Junjie T. Hua, Tianyi Liu, Elai Davicioni, Arun P. Wiita, Bradley A. Stohr, Javed Siddiqui, Bo Huang, Eric J. Small, Kevan M. Shokat, Peter S. Nelson, David A. Quigley, Elizabeth V. Wasmuth, Luke A. Gilbert, Felix Y. Feng

Department of Biochemistry & Structural Biology

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

Abstract

The androgen receptor (AR) is a critical driver of prostate cancer (PCa). Here, to study regulators of AR protein levels and oncogenic activity, we developed a live-cell quantitative endogenous AR fluorescent reporter. Leveraging this AR reporter, we performed genome-scale CRISPRi flow cytometry sorting screens to systematically identify genes that modulate AR protein levels. We identified and validated known AR protein regulators, including HOXB13 and GATA2, and also unexpected top hits including PTGES3—a poorly characterized gene in PCa. PTGES3 repression resulted in loss of AR protein, cell-cycle arrest and cell death in AR-driven PCa models. Clinically, analysis of PCa data demonstrates that PTGES3 expression is associated with AR-directed therapy resistance. Mechanistically, we show PTGES3 binds directly to AR, regulates AR protein stability and is necessary for AR function in the nucleus at AR target genes. PTGES3 represents a potential therapeutic target for overcoming known mechanisms of resistance to existing AR-directed therapies in PCa.

Original language	English (US)
Pages (from-to)	3027-3038
Number of pages	12
Journal	Nature Genetics
Volume	57
Issue number	12
DOIs	https://doi.org/10.1038/s41588-025-02388-8
State	Published - Dec 2025

ASJC Scopus subject areas

Genetics

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Li, H., Melnyk, J. E., Fu, B. X. H., Shrestha, R., Zhang, M., Sjöström, M., Feng, S., Anderson, J. A., Han, W., Chesner, L. N., Shin, H. J., Farsh, T., Suarez, H. J., Nath, S., Chou, J., Das, R., Egusa, E. A., Calvert, M., Kishishita, A., ... Feng, F. Y. (2025). Genome-scale CRISPR screens identify PTGES3 as a direct modulator of androgen receptor function in advanced prostate cancer. Nature Genetics, 57(12), 3027-3038. https://doi.org/10.1038/s41588-025-02388-8

Li, H, Melnyk, JE, Fu, BXH, Shrestha, R, Zhang, M, Sjöström, M, Feng, S, Anderson, JA, Han, W, Chesner, LN, Shin, HJ, Farsh, T, Suarez, HJ, Nath, S, Chou, J, Das, R, Egusa, EA, Calvert, M, Kishishita, A, Barpanda, A, Zhu, J, Maheshwari, A, Chen, WS, Alshalalfa, M, Winters, A, Hua, JT, Liu, T, Davicioni, E, Wiita, AP, Stohr, BA, Siddiqui, J, Huang, B, Small, EJ, Shokat, KM, Nelson, PS, Quigley, DA, Wasmuth, EV, Gilbert, LA & Feng, FY 2025, 'Genome-scale CRISPR screens identify PTGES3 as a direct modulator of androgen receptor function in advanced prostate cancer', Nature Genetics, vol. 57, no. 12, pp. 3027-3038. https://doi.org/10.1038/s41588-025-02388-8

@article{b63fd59bcdd147f6b7768372d6e2442a,

title = "Genome-scale CRISPR screens identify PTGES3 as a direct modulator of androgen receptor function in advanced prostate cancer",

abstract = "The androgen receptor (AR) is a critical driver of prostate cancer (PCa). Here, to study regulators of AR protein levels and oncogenic activity, we developed a live-cell quantitative endogenous AR fluorescent reporter. Leveraging this AR reporter, we performed genome-scale CRISPRi flow cytometry sorting screens to systematically identify genes that modulate AR protein levels. We identified and validated known AR protein regulators, including HOXB13 and GATA2, and also unexpected top hits including PTGES3—a poorly characterized gene in PCa. PTGES3 repression resulted in loss of AR protein, cell-cycle arrest and cell death in AR-driven PCa models. Clinically, analysis of PCa data demonstrates that PTGES3 expression is associated with AR-directed therapy resistance. Mechanistically, we show PTGES3 binds directly to AR, regulates AR protein stability and is necessary for AR function in the nucleus at AR target genes. PTGES3 represents a potential therapeutic target for overcoming known mechanisms of resistance to existing AR-directed therapies in PCa.",

author = "Haolong Li and Melnyk, \{James E.\} and Fu, \{Becky Xu Hua\} and Raunak Shrestha and Meng Zhang and Martin Sj{\"o}str{\"o}m and Siyu Feng and Anderson, \{Jasmine A.\} and Wanting Han and Chesner, \{Lisa N.\} and Shin, \{Hyun Jin\} and Tatyanah Farsh and Suarez, \{Humberto J.\} and Seema Nath and Jonathan Chou and Rajdeep Das and Egusa, \{Emily A.\} and Marsha Calvert and Audrey Kishishita and Abhilash Barpanda and Jun Zhu and Ashutosh Maheshwari and Chen, \{William S.\} and Mohammed Alshalalfa and Aidan Winters and Hua, \{Junjie T.\} and Tianyi Liu and Elai Davicioni and Wiita, \{Arun P.\} and Stohr, \{Bradley A.\} and Javed Siddiqui and Bo Huang and Small, \{Eric J.\} and Shokat, \{Kevan M.\} and Nelson, \{Peter S.\} and Quigley, \{David A.\} and Wasmuth, \{Elizabeth V.\} and Gilbert, \{Luke A.\} and Feng, \{Felix Y.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = dec,

doi = "10.1038/s41588-025-02388-8",

language = "English (US)",

volume = "57",

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T1 - Genome-scale CRISPR screens identify PTGES3 as a direct modulator of androgen receptor function in advanced prostate cancer

AU - Li, Haolong

AU - Melnyk, James E.

AU - Fu, Becky Xu Hua

AU - Shrestha, Raunak

AU - Zhang, Meng

AU - Sjöström, Martin

AU - Feng, Siyu

AU - Anderson, Jasmine A.

AU - Han, Wanting

AU - Chesner, Lisa N.

AU - Shin, Hyun Jin

AU - Farsh, Tatyanah

AU - Suarez, Humberto J.

AU - Nath, Seema

AU - Chou, Jonathan

AU - Das, Rajdeep

AU - Egusa, Emily A.

AU - Calvert, Marsha

AU - Kishishita, Audrey

AU - Barpanda, Abhilash

AU - Zhu, Jun

AU - Maheshwari, Ashutosh

AU - Chen, William S.

AU - Alshalalfa, Mohammed

AU - Winters, Aidan

AU - Hua, Junjie T.

AU - Liu, Tianyi

AU - Davicioni, Elai

AU - Wiita, Arun P.

AU - Stohr, Bradley A.

AU - Siddiqui, Javed

AU - Huang, Bo

AU - Small, Eric J.

AU - Shokat, Kevan M.

AU - Nelson, Peter S.

AU - Quigley, David A.

AU - Wasmuth, Elizabeth V.

AU - Gilbert, Luke A.

AU - Feng, Felix Y.

PY - 2025/12

Y1 - 2025/12

N2 - The androgen receptor (AR) is a critical driver of prostate cancer (PCa). Here, to study regulators of AR protein levels and oncogenic activity, we developed a live-cell quantitative endogenous AR fluorescent reporter. Leveraging this AR reporter, we performed genome-scale CRISPRi flow cytometry sorting screens to systematically identify genes that modulate AR protein levels. We identified and validated known AR protein regulators, including HOXB13 and GATA2, and also unexpected top hits including PTGES3—a poorly characterized gene in PCa. PTGES3 repression resulted in loss of AR protein, cell-cycle arrest and cell death in AR-driven PCa models. Clinically, analysis of PCa data demonstrates that PTGES3 expression is associated with AR-directed therapy resistance. Mechanistically, we show PTGES3 binds directly to AR, regulates AR protein stability and is necessary for AR function in the nucleus at AR target genes. PTGES3 represents a potential therapeutic target for overcoming known mechanisms of resistance to existing AR-directed therapies in PCa.

AB - The androgen receptor (AR) is a critical driver of prostate cancer (PCa). Here, to study regulators of AR protein levels and oncogenic activity, we developed a live-cell quantitative endogenous AR fluorescent reporter. Leveraging this AR reporter, we performed genome-scale CRISPRi flow cytometry sorting screens to systematically identify genes that modulate AR protein levels. We identified and validated known AR protein regulators, including HOXB13 and GATA2, and also unexpected top hits including PTGES3—a poorly characterized gene in PCa. PTGES3 repression resulted in loss of AR protein, cell-cycle arrest and cell death in AR-driven PCa models. Clinically, analysis of PCa data demonstrates that PTGES3 expression is associated with AR-directed therapy resistance. Mechanistically, we show PTGES3 binds directly to AR, regulates AR protein stability and is necessary for AR function in the nucleus at AR target genes. PTGES3 represents a potential therapeutic target for overcoming known mechanisms of resistance to existing AR-directed therapies in PCa.

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UR - https://www.scopus.com/pages/publications/105020913666#tab=citedBy

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AN - SCOPUS:105020913666

SN - 1061-4036

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JO - Nature Genetics

JF - Nature Genetics

IS - 12

ER -

Genome-scale CRISPR screens identify PTGES3 as a direct modulator of androgen receptor function in advanced prostate cancer

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