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Rapid P-TEFb-dependent transcriptional reorganization underpins the glioma adaptive response to radiotherapy

Author

Listed:
  • Faye M. Walker

    (University of Colorado School of Medicine)

  • Lays Martin Sobral

    (University of Colorado School of Medicine)

  • Etienne Danis

    (University of Colorado School of Medicine
    University of Colorado School of Medicine)

  • Bridget Sanford

    (University of Colorado School of Medicine)

  • Sahiti Donthula

    (University of Colorado School of Medicine)

  • Ilango Balakrishnan

    (University of Colorado School of Medicine)

  • Dong Wang

    (University of Colorado School of Medicine)

  • Angela Pierce

    (University of Colorado School of Medicine)

  • Sana D. Karam

    (University of Colorado School of Medicine)

  • Soudabeh Kargar

    (University of Colorado School of Medicine)

  • Natalie J. Serkova

    (University of Colorado School of Medicine)

  • Nicholas K. Foreman

    (University of Colorado School of Medicine
    Children’s Hospital Colorado
    University of Colorado School of Medicine)

  • Sujatha Venkataraman

    (University of Colorado School of Medicine)

  • Robin Dowell

    (University of Colorado
    University of Colorado)

  • Rajeev Vibhakar

    (University of Colorado School of Medicine
    Children’s Hospital Colorado
    University of Colorado School of Medicine)

  • Nathan A. Dahl

    (University of Colorado School of Medicine
    Children’s Hospital Colorado)

Abstract

Dynamic regulation of gene expression is fundamental for cellular adaptation to exogenous stressors. P-TEFb-mediated pause-release of RNA polymerase II (Pol II) is a conserved regulatory mechanism for synchronous transcriptional induction in response to heat shock, but this pro-survival role has not been examined in the applied context of cancer therapy. Using model systems of pediatric high-grade glioma, we show that rapid genome-wide reorganization of active chromatin facilitates P-TEFb-mediated nascent transcriptional induction within hours of exposure to therapeutic ionizing radiation. Concurrent inhibition of P-TEFb disrupts this chromatin reorganization and blunts transcriptional induction, abrogating key adaptive programs such as DNA damage repair and cell cycle regulation. This combination demonstrates a potent, synergistic therapeutic potential agnostic of glioma subtype, leading to a marked induction of tumor cell apoptosis and prolongation of xenograft survival. These studies reveal a central role for P-TEFb underpinning the early adaptive response to radiotherapy, opening avenues for combinatorial treatment in these lethal malignancies.

Suggested Citation

  • Faye M. Walker & Lays Martin Sobral & Etienne Danis & Bridget Sanford & Sahiti Donthula & Ilango Balakrishnan & Dong Wang & Angela Pierce & Sana D. Karam & Soudabeh Kargar & Natalie J. Serkova & Nicho, 2024. "Rapid P-TEFb-dependent transcriptional reorganization underpins the glioma adaptive response to radiotherapy," Nature Communications, Nature, vol. 15(1), pages 1-21, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-48214-3
    DOI: 10.1038/s41467-024-48214-3
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