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Homologous recombination deficiency derived from whole-genome sequencing predicts platinum response in triple-negative breast cancers

Author

Listed:
  • Petra Brugge

    (The Netherlands Cancer Institute)

  • Sarah C. Moser

    (The Netherlands Cancer Institute)

  • Ivan Bièche

    (PSL University)

  • Petra Kristel

    (The Netherlands Cancer Institute)

  • Sabrina Ibadioune

    (PSL University)

  • Alexandre Eeckhoutte

    (PSL University
    PSL University)

  • Roebi Bruijn

    (The Netherlands Cancer Institute)

  • Eline Burg

    (The Netherlands Cancer Institute)

  • Catrin Lutz

    (The Netherlands Cancer Institute)

  • Stefano Annunziato

    (The Netherlands Cancer Institute)

  • Julian Ruiter

    (The Netherlands Cancer Institute)

  • Julien Masliah Planchon

    (PSL University)

  • Sophie Vacher

    (PSL University)

  • Laura Courtois

    (PSL University)

  • Rania El-Botty

    (PSL University)

  • Ahmed Dahmani

    (PSL University)

  • Elodie Montaudon

    (PSL University)

  • Ludivine Morisset

    (PSL University)

  • Laura Sourd

    (PSL University)

  • Léa Huguet

    (PSL University)

  • Heloise Derrien

    (PSL University)

  • Fariba Nemati

    (PSL University)

  • Sophie Chateau-Joubert

    (BioPôle Alfort, Ecole Nationale Vétérinaire d’Alfort)

  • Thibaut Larcher

    (INRA, APEX-PAnTher, Oniris)

  • Anne Salomon

    (PSL University)

  • Didier Decaudin

    (PSL University)

  • Fabien Reyal

    (PSL University)

  • Florence Coussy

    (PSL University)

  • Tatiana Popova

    (PSL University
    PSL University)

  • Jelle Wesseling

    (The Netherlands Cancer Institute)

  • Marc-Henri Stern

    (PSL University
    PSL University
    PSL University)

  • Jos Jonkers

    (The Netherlands Cancer Institute)

  • Elisabetta Marangoni

    (PSL University)

Abstract

The high frequency of homologous recombination deficiency (HRD) is the main rationale of testing platinum-based chemotherapy in triple-negative breast cancer (TNBC), however, the existing methods to identify HRD are controversial and there is a medical need for predictive biomarkers. We assess the in vivo response to platinum agents in 55 patient-derived xenografts (PDX) of TNBC to identify determinants of response. The HRD status, determined from whole genome sequencing, is highly predictive of platinum response. BRCA1 promoter methylation is not associated with response, in part due to residual BRCA1 gene expression and homologous recombination proficiency in different tumours showing mono-allelic methylation. Finally, in 2 cisplatin sensitive tumours we identify mutations in XRCC3 and ORC1 genes that are functionally validated in vitro. In conclusion, our results demonstrate that the genomic HRD is predictive of platinum response in a large cohort of TNBC PDX and identify alterations in XRCC3 and ORC1 genes driving cisplatin response.

Suggested Citation

  • Petra Brugge & Sarah C. Moser & Ivan Bièche & Petra Kristel & Sabrina Ibadioune & Alexandre Eeckhoutte & Roebi Bruijn & Eline Burg & Catrin Lutz & Stefano Annunziato & Julian Ruiter & Julien Masliah P, 2023. "Homologous recombination deficiency derived from whole-genome sequencing predicts platinum response in triple-negative breast cancers," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-37537-2
    DOI: 10.1038/s41467-023-37537-2
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    References listed on IDEAS

    as
    1. Elodie Montaudon & Joanna Nikitorowicz-Buniak & Laura Sourd & Ludivine Morisset & Rania El Botty & Léa Huguet & Ahmed Dahmani & Pierre Painsec & Fariba Nemati & Sophie Vacher & Walid Chemlali & Julien, 2020. "PLK1 inhibition exhibits strong anti-tumoral activity in CCND1-driven breast cancer metastases with acquired palbociclib resistance," Nature Communications, Nature, vol. 11(1), pages 1-16, December.
    2. Olga Kondrashova & Monique Topp & Ksenija Nesic & Elizabeth Lieschke & Gwo-Yaw Ho & Maria I. Harrell & Giada V. Zapparoli & Alison Hadley & Robert Holian & Emma Boehm & Valerie Heong & Elaine Sanij & , 2018. "Methylation of all BRCA1 copies predicts response to the PARP inhibitor rucaparib in ovarian carcinoma," Nature Communications, Nature, vol. 9(1), pages 1-16, December.
    3. Michal Zimmermann & Olga Murina & Martin A. M. Reijns & Angelo Agathanggelou & Rachel Challis & Žygimantė Tarnauskaitė & Morwenna Muir & Adeline Fluteau & Michael Aregger & Andrea McEwan & Wei Yuan & , 2018. "CRISPR screens identify genomic ribonucleotides as a source of PARP-trapping lesions," Nature, Nature, vol. 559(7713), pages 285-289, July.
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