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Trans-lesion synthesis and mismatch repair pathway crosstalk defines chemoresistance and hypermutation mechanisms in glioblastoma

Author

Listed:
  • Xing Cheng

    (University of North Carolina
    Chongqing University Cancer Hospital)

  • Jing An

    (University of North Carolina
    Harbin Medical University)

  • Jitong Lou

    (University of North Carolina
    Eli Lilly and Company)

  • Qisheng Gu

    (Chinese Academy of Sciences
    Université Paris Cité)

  • Weimin Ding

    (University of North Carolina
    Southern Medical University)

  • Gaith Nabil Droby

    (University of North Carolina
    University of North Carolina)

  • Yilin Wang

    (University of North Carolina)

  • Chenghao Wang

    (University of North Carolina)

  • Yanzhe Gao

    (University of North Carolina)

  • Jay Ramanlal Anand

    (University of North Carolina)

  • Abigail Shelton

    (University of North Carolina)

  • Andrew Benson Satterlee

    (University of North Carolina)

  • Breanna Mann

    (University of North Carolina)

  • Yun-Chung Hsiao

    (University of North Carolina at Chapel Hill)

  • Chih-Wei Liu

    (University of North Carolina at Chapel Hill)

  • Kun Lu

    (University of North Carolina at Chapel Hill)

  • Shawn Hingtgen

    (University of North Carolina)

  • Jiguang Wang

    (The Hong Kong University of Science and Technology
    Hong Kong Center for Neurodegenerative Diseases, InnoHK)

  • Zhaoliang Liu

    (Harbin Medical University)

  • C. Ryan Miller

    (University of North Carolina
    University of Alabama at Birmingham)

  • Di Wu

    (University of North Carolina
    University of North Carolina
    University of North Carolina at Chapel Hill)

  • Cyrus Vaziri

    (University of North Carolina
    University of North Carolina)

  • Yang Yang

    (University of North Carolina
    University of North Carolina)

Abstract

Almost all Glioblastoma (GBM) are either intrinsically resistant to the chemotherapeutical drug temozolomide (TMZ) or acquire therapy-induced mutations that cause chemoresistance and recurrence. The genome maintenance mechanisms responsible for GBM chemoresistance and hypermutation are unknown. We show that the E3 ubiquitin ligase RAD18 (a proximal regulator of TLS) is activated in a Mismatch repair (MMR)-dependent manner in TMZ-treated GBM cells, promoting post-replicative gap-filling and survival. An unbiased CRISPR screen provides an aerial map of RAD18-interacting DNA damage response (DDR) pathways deployed by GBM to tolerate TMZ genotoxicity. Analysis of mutation signatures from TMZ-treated GBM reveals a role for RAD18 in error-free bypass of O6mG (the most toxic TMZ-induced lesion), and error-prone bypass of other TMZ-induced lesions. Our analyses of recurrent GBM patient samples establishes a correlation between low RAD18 expression and hypermutation. Taken together we define molecular underpinnings for the hallmark tumorigenic phenotypes of TMZ-treated GBM.

Suggested Citation

  • Xing Cheng & Jing An & Jitong Lou & Qisheng Gu & Weimin Ding & Gaith Nabil Droby & Yilin Wang & Chenghao Wang & Yanzhe Gao & Jay Ramanlal Anand & Abigail Shelton & Andrew Benson Satterlee & Breanna Ma, 2024. "Trans-lesion synthesis and mismatch repair pathway crosstalk defines chemoresistance and hypermutation mechanisms in glioblastoma," Nature Communications, Nature, vol. 15(1), pages 1-20, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-45979-5
    DOI: 10.1038/s41467-024-45979-5
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    References listed on IDEAS

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