Author
Listed:
- Neha Chopra
(The Institute of Cancer Research)
- Holly Tovey
(The Institute of Cancer Research)
- Alex Pearson
(The Institute of Cancer Research)
- Ros Cutts
(The Institute of Cancer Research)
- Christy Toms
(The Institute of Cancer Research)
- Paula Proszek
(The Royal Marsden Hospital)
- Michael Hubank
(The Royal Marsden Hospital)
- Mitch Dowsett
(The Institute of Cancer Research
Royal Marsden Hospital)
- Andrew Dodson
(Royal Marsden Hospital)
- Frances Daley
(The Institute of Cancer Research)
- Divya Kriplani
(The Institute of Cancer Research)
- Heidi Gevensleben
(The Institute of Cancer Research)
- Helen Ruth Davies
(The Clinical School
University of Cambridge)
- Andrea Degasperi
(The Clinical School
University of Cambridge)
- Rebecca Roylance
(NIHR University College London Hospitals Biomedical Research Centre)
- Stephen Chan
(Nottingham University Hospital Trust (City Campus))
- Andrew Tutt
(The Institute of Cancer Research
King’s College London)
- Anthony Skene
(Royal Bournemouth Hospital)
- Abigail Evans
(Poole Hospital NHS Foundation Trust)
- Judith M. Bliss
(The Institute of Cancer Research)
- Serena Nik-Zainal
(The Clinical School
University of Cambridge)
- Nicholas C. Turner
(The Institute of Cancer Research
The Royal Marsden Hospital)
Abstract
Triple negative breast cancer (TNBC) encompasses molecularly different subgroups, with a subgroup harboring evidence of defective homologous recombination (HR) DNA repair. Here, within a phase 2 window clinical trial, RIO trial (EudraCT 2014-003319-12), we investigate the activity of PARP inhibitors in 43 patients with untreated TNBC. The primary end point, decreased Ki67, occured in 12% of TNBC. In secondary end point analyses, HR deficiency was identified in 69% of TNBC with the mutational-signature-based HRDetect assay. Cancers with HRDetect mutational signatures of HR deficiency had a functional defect in HR, assessed by impaired RAD51 foci formation on end of treatment biopsy. Following rucaparib treatment there was no association of Ki67 change with HR deficiency. In contrast, early circulating tumor DNA dynamics identified activity of rucaparib, with end of treatment ctDNA levels suppressed by rucaparib in mutation-signature HR-deficient cancers. In ad hoc analysis, rucaparib induced expression of interferon response genes in HR-deficient cancers. The majority of TNBCs have a defect in DNA repair, identifiable by mutational signature analysis, that may be targetable with PARP inhibitors.
Suggested Citation
Neha Chopra & Holly Tovey & Alex Pearson & Ros Cutts & Christy Toms & Paula Proszek & Michael Hubank & Mitch Dowsett & Andrew Dodson & Frances Daley & Divya Kriplani & Heidi Gevensleben & Helen Ruth D, 2020.
"Homologous recombination DNA repair deficiency and PARP inhibition activity in primary triple negative breast cancer,"
Nature Communications, Nature, vol. 11(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16142-7
DOI: 10.1038/s41467-020-16142-7
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Cited by:
- Naser Ansari-Pour & Yonglan Zheng & Toshio F. Yoshimatsu & Ayodele Sanni & Mustapha Ajani & Jean-Baptiste Reynier & Avraam Tapinos & Jason J. Pitt & Stefan Dentro & Anna Woodard & Padma Sheila Rajagop, 2021.
"Whole-genome analysis of Nigerian patients with breast cancer reveals ethnic-driven somatic evolution and distinct genomic subtypes,"
Nature Communications, Nature, vol. 12(1), pages 1-15, December.
- Yonina R. Murciano-Goroff & Alison M. Schram & Ezra Y. Rosen & Helen Won & Yixiao Gong & Anne Marie Noronha & Yelena Y. Janjigian & Zsofia K. Stadler & Jason C. Chang & Soo-Ryum Yang & Diana Mandelker, 2022.
"Reversion mutations in germline BRCA1/2-mutant tumors reveal a BRCA-mediated phenotype in non-canonical histologies,"
Nature Communications, Nature, vol. 13(1), pages 1-10, December.
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