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BRCA2 deficiency and replication stress drive APOBEC3-Mediated genomic instability

Author

Listed:
  • Kathy Situ

    (University of Massachusetts Boston
    University of Massachusetts Boston)

  • Haohui Duan

    (University of Massachusetts Boston
    University of Massachusetts Boston)

  • Stephen K. Godin

    (University of Massachusetts Boston
    University of Massachusetts Boston)

  • Joshua Yang

    (University of Massachusetts Boston
    University of Massachusetts Boston)

  • Gabrielle Q. McCloskey

    (University of Massachusetts Boston)

  • Basim Naeem

    (University of Massachusetts Boston)

  • Margaret K. Gillis

    (University of Massachusetts Boston)

  • Muhammad H. Zeb

    (University of Massachusetts Boston)

  • Silvi Salhotra

    (University of Massachusetts Boston)

  • Pratha Rawal

    (University of Massachusetts Boston)

  • Nisha Patel

    (University of Massachusetts Boston)

  • Salome K. Mouliere

    (University of Massachusetts Boston)

  • Jie Chen

    (University of Massachusetts Boston)

  • Angéla Békési

    (Műegyetem Rkp. 3
    Hungarian Research Network)

  • Hajnalka L. Pálinkás

    (Műegyetem Rkp. 3
    Hungarian Research Network)

  • Subramanian Venkatesan

    (University College London Cancer Institute)

  • Abby M. Green

    (Washington University School of Medicine)

  • Nicolai J. Birkbak

    (Aarhus University Hospital
    Aarhus University)

  • Beáta G. Vértessy

    (Műegyetem Rkp. 3
    Hungarian Research Network)

  • Charles Swanton

    (University College London Cancer Institute
    The Francis Crick Institute
    University College London Hospitals)

  • Shailja Pathania

    (University of Massachusetts Boston
    University of Massachusetts Boston)

Abstract

BRCA2 plays a critical role in stabilizing stalled replication forks, yet critical gaps remain in understanding how BRCA2 deficiency triggers fork collapse and drives genomic instability. Here, we identify cytidine deaminase APOBEC3B as a key driver of this process. Using a unique uracil-in-DNA probe, we show that BRCA2 loss promotes APOBEC3B-mediated uracil accumulation in single-stranded DNA (U-ssDNA) at stalled forks. These lesions when processed by UNG2 and APE1, trigger fork collapse and release ssDNA fragments into the cytoplasm, activating NF-κB signaling. This in turn upregulates APOBEC3B expression, establishing a self-reinforcing loop that amplifies cytidine deamination at stalled forks and exacerbates genomic instability. Depletion of APOBEC3B, UNG2, or APE1 rescues these defects. Notably, BRCA1-deficient cells do not accumulate U-ssDNA or induce APOBEC3B under replication stress, highlighting a BRCA2-specific vulnerability. Clinically, low APE1 expression correlates with poor survival in patients with BRCA2-mutant tumors, with high APOBEC3 levels further worsening outcomes. Together, our findings establish that replication stress, whether intrinsic or therapy induced, triggers APOBEC3B overexpression and potentially activates an APOBEC3B-driven mutagenic loop in BRCA2-deficient cells. These results position APOBEC3B, UNG2 and APE1 as critical regulators of BRCA2-mutant tumor evolution and therapy resistance.

Suggested Citation

  • Kathy Situ & Haohui Duan & Stephen K. Godin & Joshua Yang & Gabrielle Q. McCloskey & Basim Naeem & Margaret K. Gillis & Muhammad H. Zeb & Silvi Salhotra & Pratha Rawal & Nisha Patel & Salome K. Moulie, 2025. "BRCA2 deficiency and replication stress drive APOBEC3-Mediated genomic instability," Nature Communications, Nature, vol. 16(1), pages 1-24, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-64578-6
    DOI: 10.1038/s41467-025-64578-6
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