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Epigenetic silencing of DNA sensing pathway by FOXM1 blocks stress ligand-dependent antitumor immunity and immune memory

Author

Listed:
  • Santosh Timilsina

    (Greehey Children’s Cancer Research Institute)

  • Jian Yu Huang

    (Greehey Children’s Cancer Research Institute)

  • Nourhan Abdelfattah

    (Houston Methodist Research Institute)

  • Daisy Medina

    (Greehey Children’s Cancer Research Institute
    UT Health San Antonio)

  • Deepika Singh

    (Greehey Children’s Cancer Research Institute
    UT Health San Antonio)

  • Shahad Abdulsahib

    (Greehey Children’s Cancer Research Institute
    UT Health San Antonio)

  • Panneerdoss Subbarayalu

    (Greehey Children’s Cancer Research Institute
    UT Health San Antonio)

  • Trong Phat Do

    (Greehey Children’s Cancer Research Institute
    UT Health San Antonio)

  • Prabhakar Pitta Venkata

    (Greehey Children’s Cancer Research Institute
    UT Health San Antonio)

  • Saif Nirzhor

    (Greehey Children’s Cancer Research Institute
    UT Health San Antonio)

  • Jack Prochnau

    (Greehey Children’s Cancer Research Institute)

  • Mukund Bhandari

    (UT Southwestern Medical Center)

  • Siyuan Zheng

    (Greehey Children’s Cancer Research Institute
    UT Health San Antonio)

  • Yidong Chen

    (Greehey Children’s Cancer Research Institute
    UT Health San Antonio)

  • Gang Huang

    (UT Health San Antonio)

  • Neelam Mukherjee

    (UT Health)

  • Robert Hromas

    (UT Health)

  • Patrick Sung

    (Greehey Children’s Cancer Research Institute
    UT Health San Antonio)

  • Virginia Kaklamani

    (UT Health)

  • Ratna Vadlamudi

    (UT Health San Antonio
    Audie L. Murphy Division, South Texas Veterans Health Care System)

  • Nu Zhang

    (Audie L. Murphy Division, South Texas Veterans Health Care System
    UT Health)

  • Manjeet K. Rao

    (Greehey Children’s Cancer Research Institute
    Houston Methodist Research Institute)

Abstract

The interplay between tumor cells and the microenvironment significantly influences cancer progression. Here, we report a significant role of the transcription factor FOXM1 in shaping the tumor immune landscape. Single-cell sequencing reveals that tumor-intrinsic FOXM1 creates an immune-suppressive tumor microenvironment by inhibiting expression of stress ligands (including ULBP1) on cancer cells, thereby blocking NKG2D-NKG2DL interactions critical for priming natural killer- and T cell-mediated cytotoxicity of cancer cells. FOXM1 suppresses ULBP1 expression by epigenetically silencing the DNA-sensing protein STING using a DNMT1-UHRF1 complex, which in turn inhibits the unfolded protein response protein CHOP from activating ULBP1. Importantly, cancer patients with higher levels of FOXM1 and DNMT1, and lower levels of STING and ULBP1, have worse survival and are less responsive to immunotherapy. Collectively, our findings provide key insight into how a tumor-intrinsic transcription factor epigenetically shapes the tumor immune microenvironment, with strong implications for refining existing and designing new cancer immunotherapies.

Suggested Citation

  • Santosh Timilsina & Jian Yu Huang & Nourhan Abdelfattah & Daisy Medina & Deepika Singh & Shahad Abdulsahib & Panneerdoss Subbarayalu & Trong Phat Do & Prabhakar Pitta Venkata & Saif Nirzhor & Jack Pro, 2025. "Epigenetic silencing of DNA sensing pathway by FOXM1 blocks stress ligand-dependent antitumor immunity and immune memory," Nature Communications, Nature, vol. 16(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59186-3
    DOI: 10.1038/s41467-025-59186-3
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    References listed on IDEAS

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    1. Suoqin Jin & Christian F. Guerrero-Juarez & Lihua Zhang & Ivan Chang & Raul Ramos & Chen-Hsiang Kuan & Peggy Myung & Maksim V. Plikus & Qing Nie, 2021. "Inference and analysis of cell-cell communication using CellChat," Nature Communications, Nature, vol. 12(1), pages 1-20, December.
    2. Thomas J. Hayman & Marta Baro & Tyler MacNeil & Chatchai Phoomak & Thazin Nwe Aung & Wei Cui & Kevin Leach & Radhakrishnan Iyer & Sreerupa Challa & Teresa Sandoval-Schaefer & Barbara A. Burtness & Dav, 2021. "STING enhances cell death through regulation of reactive oxygen species and DNA damage," Nature Communications, Nature, vol. 12(1), pages 1-14, December.
    3. Xiaoli Liu & Qinqin Gao & Pishun Li & Qian Zhao & Jiqin Zhang & Jiwen Li & Haruhiko Koseki & Jiemin Wong, 2013. "UHRF1 targets DNMT1 for DNA methylation through cooperative binding of hemi-methylated DNA and methylated H3K9," Nature Communications, Nature, vol. 4(1), pages 1-13, June.
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