Cancer Discovery, pages OF1-OF26

ZNF397 Deficiency Triggers TET2-driven Lineage Plasticity and AR-Targeted Therapy Resistance in Prostate Cancer

Yaru Xu ^{1, 2}

Yuqiu Yang ^{1, 3}

Zhaoning Wang ^{2, 4, 5}

Martin Sjostrom ^{6, 7}

Yuyin Jiang ^{1, 2}

Yitao Tang ^{8, 9}

Siyuan Cheng ^{10, 11}

Su Deng ^{1, 2}

Choushi Wang ^{1, 2}

Julisa Gonzalez ^{1, 2}

Nickolas A. Johnson ^{1, 2}

Xiang Li ^{1, 2}

Xiaoling Li ^{1, 2}

Lauren A. Metang ^{1, 2}

Atreyi Mukherji ^{1, 2}

Quanhui Xu ^{1, 2}

Carla Rodriguez Tirado ^{1, 2}

Garrett Wainwright ^{1, 2}

Xinzhe Yu ^{12, 13}

Spencer Barnes ^{1, 14}

Mia Hofstad ^{15, 16}

Yu Chen ^{17, 18}

Hong Zhu ^{19, 20}

Ariella B. Hanker ^{1, 21, 22}

Ganesh Raj ^{1, 16, 22}

Guanghui Zhu ^{23, 24, 25}

Housheng Hansen He ^{23, 24, 25}

Zhao Wang ^{13, 26}

Carlos L. Arteaga ^{15, 21, 22}

Xue Zhou ^{9, 27}

F. Feng ^{5, 6, 28}

Yunguan Wang ^{1, 29}

Tao Wang ^{1, 3, 22}

Ping Mu ^{1, 2, 22, 30}

Show full list: 34 authors

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The University of Texas Southwestern Medical Center, DALLAS, TX, United States |

Department of Molecular Biology, UT Southwestern Medical Center, Dallas, Texas. 1 |

Quantitative Biomedical Research Center, Peter O’Donnell Jr. School of Public Health, UT Southwestern Medical Center, Dallas, Texas. 2 |

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University of California, San Diego, La Jolla, California, United States |

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Department of Cellular and Molecular Medicine, School of Medicine, University of California San Diego, La Jolla, California. 3 |

⁶

University of California, San Francisco, San Francisco, CA, United States |

⁷

Department of Radiation Oncology, University of California, San Francisco, San Francisco, California. 4 |

⁸

The University of Texas MD Anderson Cancer Center, Houston, United States |

⁹

Department of Bioinformatics and Computational Biology, The University of Texas MD Anderson Cancer Center, Houston, Texas. 5 |

¹⁰

Louisiana State University Health Sciences Center Shreveport, United States |

¹¹

Department of Biochemistry and Molecular Biology, Louisiana State University Health Shreveport, Shreveport, Louisiana. 6 |

¹²

Baylor College of Medicine, United States |

¹³

Verna and Marrs McLean Department of Biochemistry and Molecular Biology, Baylor College of Medicine, Houston, Texas. 7 |

¹⁴

Bioinformatics Core Facility of the Lyda Hill Department of Bioinformatics, UT Southwestern Medical Center, Dallas, Texas. 8 |

¹⁵

The University of Texas Southwestern Medical Center, Dallas, Texas, United States |

¹⁶

Department of Urology, UT Southwestern Medical Center, Dallas, Texas. 9 |

¹⁷

Memorial Sloan Kettering Cancer Center, NEW YORK, NY, United States |

¹⁸

Human Oncology and Pathogenesis Program, Memorial Sloan Kettering Cancer Center, NYC, New York, New York. 10 |

¹⁹

University of Virginia, Charlottesville, United States |

²⁰

Division of Biostatistics, Department of Public Health Sciences, University of Virginia School of Medicine, Charlottesville, Virginia. 11 |

²¹

Department of Internal Medicine, UT Southwestern Medical Center, Dallas, Texas. 12 |

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Harold C. Simmons Comprehensive Cancer Center, UT Southwestern Medical Center, Dallas, Texas. 13 |

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Princess Margaret Cancer Centre, Toronto, Ontario,, Canada |

²⁴

Department of Medical Biophysics, University of Toronto, Toronto, Canada. 14 |

²⁵

Princess Margaret Cancer Center, University Health Network, Toronto, Canada. 15 |

²⁶

Baylor College Of Medicine, Houston, TX, United States |

²⁷

The University of Texas MD Anderson Cancer Center, Houston, Tx, United States |

²⁸

Helen Diller Family Comprehensive Cancer Center, University of California, San Francisco, San Francisco, California. 16 |

²⁹

Division of Pediatric Gastroenterology, Hepatology and Nutrition, Cincinnati Children’s Hospital Medical Center, Cincinnati, OH 45229. 17 |

³⁰

Hamon Center for Regenerative Science and Medicine, UT Southwestern Medical Center, Dallas, Texas. 18 |

Publication type: Journal Article

Publication date: 2024-07-03

American Association for Cancer Research (AACR)

Journal: Cancer Discovery

scimago Q1

wos Q1

SJR: 7.533

CiteScore: 22.9

Impact factor: 29.7

ISSN: 21598274, 21598290

DOI: 10.1158/2159-8290.cd-23-0539

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Oncology

Abstract

Cancer cells exhibit phenotypical plasticity and epigenetic reprogramming that allows them to evade lineage-dependent targeted treatments by adopting lineage plasticity. The underlying mechanisms by which cancer cells exploit the epigenetic regulatory machinery to acquire lineage plasticity and therapy resistance remain poorly understood. We identified zinc finger protein 397 (ZNF397) as a bona fide coactivator of the androgen receptor (AR), essential for the transcriptional program governing AR-driven luminal lineage. ZNF397 deficiency facilitates the transition of cancer cell from an AR-driven luminal lineage to a ten-eleven translocation 2 (TET2)-driven lineage plastic state, ultimately promoting resistance to therapies inhibiting AR signaling. Intriguingly, our findings indicate that a TET2 inhibitor can eliminate the resistance to AR-targeted therapies in ZNF397-deficient tumors. These insights uncover a novel mechanism through which prostate cancer acquires lineage plasticity via epigenetic rewiring and offer promising implications for clinical interventions designed to overcome therapy resistance dictated by lineage plasticity.

Significance: This study reveals a bifurcated role of ZNF397, and a TET2–driven epigenetic mechanism regulating tumor lineage plasticity and therapy response in prostate cancer, enhances the understanding of drug resistance, and unveils a new therapeutic strategy for overcoming androgen receptor-targeted therapy resistance.

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Publisher

American Association for Cancer Research (AACR)

Journal

Cancer Discovery

scimago Q1

wos Q1

SJR

7.533

CiteScore

22.9

Impact factor

29.7

ISSN

21598274 (Print)

21598290 (Electronic)

Profiles

Sjöström, Martin

ZNF397 Deficiency Triggers TET2-driven Lineage Plasticity and AR-Targeted Therapy Resistance in Prostate Cancer

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