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DDX41 resolves G-quadruplexes to maintain erythroid genome integrity and prevent cGAS-mediated cell death

Author

Listed:
  • Honghao Bi

    (Northwestern University
    Northwestern University)

  • Kehan Ren

    (Northwestern University
    Northwestern University)

  • Pan Wang

    (Northwestern University
    Northwestern University)

  • Ermin Li

    (Northwestern University
    Northwestern University)

  • Xu Han

    (Northwestern University
    Northwestern University)

  • Wen Wang

    (Northwestern University)

  • Jing Yang

    (Northwestern University
    Northwestern University)

  • Inci Aydemir

    (Northwestern University
    Northwestern University)

  • Kara Tao

    (Northwestern University)

  • Renee Ma

    (Northwestern University)

  • Lucy A. Godley

    (Northwestern University
    Northwestern University)

  • Yan Liu

    (Northwestern University
    Northwestern University)

  • Vipul Shukla

    (Northwestern University
    Northwestern University
    Northwestern University)

  • Elizabeth T. Bartom

    (Northwestern University
    Northwestern University
    Northwestern University)

  • Yuefeng Tang

    (Feinstein Institutes for Medical Research)

  • Lionel Blanc

    (Feinstein Institutes for Medical Research)

  • Madina Sukhanova

    (Northwestern University
    Northwestern University)

  • Peng Ji

    (Northwestern University
    Northwestern University)

Abstract

Deleterious germline DDX41 variants constitute the most common inherited predisposition disorder linked to myeloid neoplasms (MNs), yet their role in MNs remains unclear. Here we show that DDX41 is essential for erythropoiesis but dispensable for other hematopoietic lineages. Ddx41 knockout in early erythropoiesis is embryonically lethal, while knockout in late-stage terminal erythropoiesis allows mice to survive with normal blood counts. DDX41 deficiency induces a significant upregulation of G-quadruplexes (G4), which co-distribute with DDX41 on the erythroid genome. DDX41 directly binds to and resolves G4, which is significantly compromised in MN-associated DDX41 mutants. G4 accumulation induces erythroid genome instability, ribosomal defects, and p53 upregulation. However, p53 deficiency does not rescue the embryonic death of Ddx41 hematopoietic-specific knockout mice. In parallel, genome instability also activates the cGas-Sting pathway, impairing survival, as cGas deficiency rescues the lethality of hematopoietic-specific Ddx41 knockout mice. This is supported by data from a DDX41-mutated MN patient and human iPSC-derived bone marrow organoids. Our study establishes DDX41 as a G4 resolvase, essential for erythroid genome stability and suppressing the cGAS-STING pathway.

Suggested Citation

  • Honghao Bi & Kehan Ren & Pan Wang & Ermin Li & Xu Han & Wen Wang & Jing Yang & Inci Aydemir & Kara Tao & Renee Ma & Lucy A. Godley & Yan Liu & Vipul Shukla & Elizabeth T. Bartom & Yuefeng Tang & Lione, 2025. "DDX41 resolves G-quadruplexes to maintain erythroid genome integrity and prevent cGAS-mediated cell death," Nature Communications, Nature, vol. 16(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-62307-7
    DOI: 10.1038/s41467-025-62307-7
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    References listed on IDEAS

    as
    1. Chun-Ying Lee & Christina McNerney & Kevin Ma & Walter Zhao & Ashley Wang & Sua Myong, 2020. "R-loop induced G-quadruplex in non-template promotes transcription by successive R-loop formation," Nature Communications, Nature, vol. 11(1), pages 1-15, December.
    2. Enid Yi Ni Lam & Dario Beraldi & David Tannahill & Shankar Balasubramanian, 2013. "G-quadruplex structures are stable and detectable in human genomic DNA," Nature Communications, Nature, vol. 4(1), pages 1-8, June.
    3. Haipeng Liu & Haiping Zhang & Xiangyang Wu & Dapeng Ma & Juehui Wu & Lin Wang & Yan Jiang & Yiyan Fei & Chenggang Zhu & Rong Tan & Peter Jungblut & Gang Pei & Anca Dorhoi & Qiaoling Yan & Fan Zhang & , 2018. "Nuclear cGAS suppresses DNA repair and promotes tumorigenesis," Nature, Nature, vol. 563(7729), pages 131-136, November.
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    Cited by:

    1. Jeong-Ah Kim & Siqi Shen & Christina M. Jurotich & Saritha S. D’Souza & Johnathan J. Caldon & Igor I. Slukvin & Jane E. Churpek & Sunduz Keles & Emery H. Bresnick, 2025. "Oncogenic DEAD-box ATPase DDX41 establishes transcript ensembles via CLK3-dependent and -independent mechanisms," Nature Communications, Nature, vol. 16(1), pages 1-17, December.

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