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Genetic separation of Brca1 functions reveal mutation-dependent Polθ vulnerabilities

Author

Listed:
  • John J. Krais

    (Nuclear Dynamics Program, Fox Chase Cancer Center
    Washington University School of Medicine)

  • David J. Glass

    (Nuclear Dynamics Program, Fox Chase Cancer Center
    Temple University, Lewis Katz School of Medicine)

  • Ilse Chudoba

    (MetaSystems Probes, GmbH, Industriestr)

  • Yifan Wang

    (Nuclear Dynamics Program, Fox Chase Cancer Center)

  • Wanjuan Feng

    (University of North Carolina)

  • Dennis Simpson

    (University of North Carolina)

  • Pooja Patel

    (Nuclear Dynamics Program, Fox Chase Cancer Center)

  • Zemin Liu

    (Cytogenetics Laboratory, Fox Chase Cancer Center)

  • Ryan Neumann-Domer

    (Cytogenetics Laboratory, Fox Chase Cancer Center)

  • Robert G. Betsch

    (Nuclear Dynamics Program, Fox Chase Cancer Center)

  • Andrea J. Bernhardy

    (Nuclear Dynamics Program, Fox Chase Cancer Center)

  • Alice M. Bradbury

    (Nuclear Dynamics Program, Fox Chase Cancer Center)

  • Jason Conger

    (Nuclear Dynamics Program, Fox Chase Cancer Center)

  • Wei-Ting Yueh

    (Nuclear Dynamics Program, Fox Chase Cancer Center)

  • Joseph Nacson

    (Nuclear Dynamics Program, Fox Chase Cancer Center)

  • Richard T. Pomerantz

    (Thomas Jefferson University, Sidney Kimmel Cancer Center, Department of Biochemistry and Molecular Biology)

  • Gaorav P. Gupta

    (Cancer Control and Prevention Program, Fox Chase Cancer Center)

  • Joseph R. Testa

    (Cytogenetics Laboratory, Fox Chase Cancer Center
    Cancer Control and Prevention Program, Fox Chase Cancer Center)

  • Neil Johnson

    (Nuclear Dynamics Program, Fox Chase Cancer Center)

Abstract

Homologous recombination (HR)-deficiency induces a dependency on DNA polymerase theta (Polθ/Polq)-mediated end joining, and Polθ inhibitors (Polθi) are in development for cancer therapy. BRCA1 and BRCA2 deficient cells are thought to be synthetic lethal with Polθ, but whether distinct HR gene mutations give rise to equivalent Polθ-dependence, and the events that drive lethality, are unclear. In this study, we utilized mouse models with separate Brca1 functional defects to mechanistically define Brca1-Polθ synthetic lethality. Surprisingly, homozygous Brca1 mutant, Polq−/− cells were viable, but grew slowly and had chromosomal instability. Brca1 mutant cells proficient in DNA end resection were significantly more dependent on Polθ for viability; here, treatment with Polθi elevated RPA foci, which persisted through mitosis. In an isogenic system, BRCA1 null cells were defective, but PALB2 and BRCA2 mutant cells exhibited active resection, and consequently stronger sensitivity to Polθi. Thus, DNA end resection is a critical determinant of Polθi sensitivity in HR-deficient cells, and should be considered when selecting patients for clinical studies.

Suggested Citation

  • John J. Krais & David J. Glass & Ilse Chudoba & Yifan Wang & Wanjuan Feng & Dennis Simpson & Pooja Patel & Zemin Liu & Ryan Neumann-Domer & Robert G. Betsch & Andrea J. Bernhardy & Alice M. Bradbury &, 2023. "Genetic separation of Brca1 functions reveal mutation-dependent Polθ vulnerabilities," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-43446-1
    DOI: 10.1038/s41467-023-43446-1
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    References listed on IDEAS

    as
    1. Jordan R. Becker & Gillian Clifford & Clara Bonnet & Anja Groth & Marcus D. Wilson & J. Ross Chapman, 2021. "BARD1 reads H2A lysine 15 ubiquitination to direct homologous recombination," Nature, Nature, vol. 596(7872), pages 433-437, August.
    2. John J. Krais & Yifan Wang & Pooja Patel & Jayati Basu & Andrea J. Bernhardy & Neil Johnson, 2021. "RNF168-mediated localization of BARD1 recruits the BRCA1-PALB2 complex to DNA damage," Nature Communications, Nature, vol. 12(1), pages 1-12, December.
    3. J. A. Kamp & R. Schendel & I. W. Dilweg & M. Tijsterman, 2020. "BRCA1-associated structural variations are a consequence of polymerase theta-mediated end-joining," Nature Communications, Nature, vol. 11(1), pages 1-10, December.
    4. Yifan Wang & Andrea J. Bernhardy & Joseph Nacson & John J. Krais & Yin-Fei Tan & Emmanuelle Nicolas & Marc R. Radke & Elizabeth Handorf & Alba Llop-Guevara & Judith Balmaña & Elizabeth M. Swisher & Vi, 2019. "BRCA1 intronic Alu elements drive gene rearrangements and PARP inhibitor resistance," Nature Communications, Nature, vol. 10(1), pages 1-12, December.
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