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PRMT5 is an actionable therapeutic target in CDK4/6 inhibitor-resistant ER+/RB-deficient breast cancer

Author

Listed:
  • Chang-Ching Lin

    (UT Southwestern Medical Center)

  • Tsung-Cheng Chang

    (UT Southwestern Medical Center
    UT Southwestern Medical Center)

  • Yunguan Wang

    (UT Southwestern Medical Center
    Cincinnati Children’s Hospital Medical Center)

  • Lei Guo

    (UT Southwestern Medical Center)

  • Yunpeng Gao

    (UT Southwestern Medical Center)

  • Emmanuel Bikorimana

    (UT Southwestern Medical Center)

  • Andrew Lemoff

    (UT Southwestern Medical Center)

  • Yisheng V. Fang

    (UT Southwestern Medical Center
    UT Southwestern Medical Center)

  • He Zhang

    (UT Southwestern Medical Center)

  • Yanfeng Zhang

    (UT Southwestern Medical Center
    University of Alabama at Birmingham)

  • Dan Ye

    (UT Southwestern Medical Center)

  • Isabel Soria-Bretones

    (University of Toronto)

  • Alberto Servetto

    (UT Southwestern Medical Center
    University of Naples Federico II)

  • Kyung-min Lee

    (UT Southwestern Medical Center
    Hanyang University)

  • Xuemei Luo

    (UT Southwestern Medical Center)

  • Joseph J. Otto

    (UT Southwestern Medical Center)

  • Hiroaki Akamatsu

    (UT Southwestern Medical Center
    Wakayama Medical University)

  • Fabiana Napolitano

    (UT Southwestern Medical Center
    University of Naples Federico II)

  • Ram Mani

    (UT Southwestern Medical Center)

  • David W. Cescon

    (University of Toronto)

  • Lin Xu

    (UT Southwestern Medical Center)

  • Yang Xie

    (UT Southwestern Medical Center)

  • Joshua T. Mendell

    (UT Southwestern Medical Center
    UT Southwestern Medical Center)

  • Ariella B. Hanker

    (UT Southwestern Medical Center)

  • Carlos L. Arteaga

    (UT Southwestern Medical Center)

Abstract

CDK4/6 inhibitors (CDK4/6i) have improved survival of patients with estrogen receptor-positive (ER+) breast cancer. However, patients treated with CDK4/6i eventually develop drug resistance and progress. RB1 loss-of-function alterations confer resistance to CDK4/6i, but the optimal therapy for these patients is unclear. Through a genome-wide CRISPR screen, we identify protein arginine methyltransferase 5 (PRMT5) as a molecular vulnerability in ER+/RB1-knockout breast cancer cells. Inhibition of PRMT5 blocks the G1-to-S transition in the cell cycle independent of RB, leading to growth arrest in RB1-knockout cells. Proteomics analysis uncovers fused in sarcoma (FUS) as a downstream effector of PRMT5. Inhibition of PRMT5 results in dissociation of FUS from RNA polymerase II, leading to hyperphosphorylation of serine 2 in RNA polymerase II, intron retention, and subsequent downregulation of proteins involved in DNA synthesis. Furthermore, treatment with the PRMT5 inhibitor pemrametostat and a selective ER degrader fulvestrant synergistically inhibits growth of ER+/RB-deficient cell-derived and patient-derived xenografts. These findings highlight dual ER and PRMT5 blockade as a potential therapeutic strategy to overcome resistance to CDK4/6i in ER+/RB-deficient breast cancer.

Suggested Citation

  • Chang-Ching Lin & Tsung-Cheng Chang & Yunguan Wang & Lei Guo & Yunpeng Gao & Emmanuel Bikorimana & Andrew Lemoff & Yisheng V. Fang & He Zhang & Yanfeng Zhang & Dan Ye & Isabel Soria-Bretones & Alberto, 2024. "PRMT5 is an actionable therapeutic target in CDK4/6 inhibitor-resistant ER+/RB-deficient breast cancer," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-46495-2
    DOI: 10.1038/s41467-024-46495-2
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