Abstract
Background: Little is known about mechanisms of resistance to poly(adenosine diphosphate-ribose) polymerase inhibitors (PARPi) and platinum chemotherapy in patients with metastatic breast cancer and BRCA1/2 mutations. Further investigation of resistance in clinical cohorts may point to strategies to prevent or overcome treatment failure. Patients and methods: We obtained tumor biopsies from metastatic breast cancer patients with BRCA1/2 deficiency before and after acquired resistance to PARPi or platinum chemotherapy. Whole exome sequencing was carried out on each tumor, germline DNA, and circulating tumor DNA. Tumors underwent RNA sequencing, and immunohistochemical staining for RAD51 foci on tumor sections was carried out for functional assessment of intact homologous recombination (HR). Results: Pre- and post-resistance tumor samples were sequenced from eight patients (four with BRCA1 and four with BRCA2 mutation; four treated with PARPi and four with platinum). Following disease progression on DNA-damaging therapy, four patients (50%) acquired at least one somatic reversion alteration likely to result in functional BRCA1/2 protein detected by tumor or circulating tumor DNA sequencing. Two patients with germline BRCA1 deficiency acquired genomic alterations anticipated to restore HR through increased DNA end resection: loss of TP53BP1 in one patient and amplification of MRE11A in another. RAD51 foci were acquired post-resistance in all patients with genomic reversion, consistent with reconstitution of HR. All patients whose tumors demonstrated RAD51 foci post-resistance were intrinsically resistant to subsequent lines of DNA-damaging therapy. Conclusions: Genomic reversion in BRCA1/2 was the most commonly observed mechanism of resistance, occurring in four of eight patients. Novel sequence alterations leading to increased DNA end resection were seen in two patients, and may be targetable for therapeutic benefit. The presence of RAD51 foci by immunohistochemistry was consistent with BRCA1/2 protein functional status from genomic data and predicted response to later DNA-damaging therapy, supporting RAD51 focus formation as a clinically useful biomarker.
Original language | English |
---|---|
Pages (from-to) | 590-598 |
Number of pages | 9 |
Journal | Annals of Oncology |
Volume | 31 |
Issue number | 5 |
DOIs | |
State | Published - May 2020 |
Externally published | Yes |
Keywords
- BRCA1
- BRCA2
- breast cancer
- PARP inhibitor
- platinum
ASJC Scopus subject areas
- Hematology
- Oncology
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In: Annals of Oncology, Vol. 31, No. 5, 05.2020, p. 590-598.
Research output: Contribution to journal › Article › peer-review
TY - JOUR
T1 - Reversion and non-reversion mechanisms of resistance to PARP inhibitor or platinum chemotherapy in BRCA1/2-mutant metastatic breast cancer
AU - Waks, A. G.
AU - Cohen, O.
AU - Kochupurakkal, B.
AU - Kim, D.
AU - Dunn, C. E.
AU - Buendia Buendia, J.
AU - Wander, S.
AU - Helvie, K.
AU - Lloyd, M. R.
AU - Marini, L.
AU - Hughes, M. E.
AU - Freeman, S. S.
AU - Ivy, S. P.
AU - Geradts, J.
AU - Isakoff, S.
AU - LoRusso, P.
AU - Adalsteinsson, V. A.
AU - Tolaney, S. M.
AU - Matulonis, U.
AU - Krop, I. E.
AU - D'Andrea, A. D.
AU - Winer, E. P.
AU - Lin, N. U.
AU - Shapiro, G. I.
AU - Wagle, N.
N1 - Funding Information: This work was supported by an American Society of Clinical Oncology Young Investigator Award (AGW), the Breast Cancer Research Foundation (AGW, NUL), Specialized Program of Research Excellence (SPORE) in Breast Cancer National Institutes of Health [grant number P50 CA168504 ] (AGW, IEK, ADD, EPW, NUL, GIS, NW), a National Cancer Institute-Cancer Therapy Evaluation Program (CTEP) Biomarker Supplement to NIH [grant number UM1 CA186709 ] (BK, ADD, GIS), the Fashion Footwear Association of New York (to Dana-Farber Cancer Institute Breast Oncology Program), the National Comprehensive Cancer Network / Pfizer Collaborative Grant Program (NUL), Friends of Dana-Farber Cancer Institute (to NUL), Yale Cancer Center [grant number 1UM1CA86689-05 ] (PL), Department of Defense [grant number W81XWH-13-1-0032 ] (NW), AACR Landon Foundation [grant number 13-60-27-WAGL ] (NW), Susan G. Komen [grant number CCR15333343] (NW), The V Foundation (NW), The Breast Cancer Alliance (NW), The Cancer Couch Foundation (NW), Twisted Pink (NW), Hope Scarves (NW), ACT NOW (to Dana-Farber Cancer Institute Breast Oncology Program). In addition, we thank Dana-Farber/Harvard Cancer Center in Boston, MA, for the use of the Specialized Histopathology Core, which provided immunohistochemical staining. Dana-Farber/Harvard Cancer Center is supported in part by an National Cancer Institute Cancer Center Support Grant [number NIH 5 P30 CA06516]. Funding Information: This work was supported by an American Society of Clinical Oncology Young Investigator Award (AGW), the Breast Cancer Research Foundation (AGW, NUL), Specialized Program of Research Excellence (SPORE) in Breast Cancer National Institutes of Health [grant number P50 CA168504] (AGW, IEK, ADD, EPW, NUL, GIS, NW), a National Cancer Institute-Cancer Therapy Evaluation Program (CTEP) Biomarker Supplement to NIH [grant number UM1 CA186709] (BK, ADD, GIS), the Fashion Footwear Association of New York (to Dana-Farber Cancer Institute Breast Oncology Program), the National Comprehensive Cancer Network/Pfizer Collaborative Grant Program (NUL), Friends of Dana-Farber Cancer Institute (to NUL), Yale Cancer Center [grant number 1UM1CA86689-05] (PL), Department of Defense [grant number W81XWH-13-1-0032] (NW), AACR Landon Foundation [grant number 13-60-27-WAGL] (NW), Susan G. Komen [grant number CCR15333343] (NW), The V Foundation (NW), The Breast Cancer Alliance (NW), The Cancer Couch Foundation (NW), Twisted Pink (NW), Hope Scarves (NW), ACT NOW (to Dana-Farber Cancer Institute Breast Oncology Program). In addition, we thank Dana-Farber/Harvard Cancer Center in Boston, MA, for the use of the Specialized Histopathology Core, which provided immunohistochemical staining. Dana-Farber/Harvard Cancer Center is supported in part by an National Cancer Institute Cancer Center Support Grant [number NIH 5 P30 CA06516]. AW receives institutional research funding from Genentech and MacroGenics. SW reports consulting/advisory board role for Foundation Medicine, InfiniteMD, Eli Lilly, and Puma Biotechnology; and equity in InfiniteMD. SSF filed a patent (WO2017161175A1) on methods applied in this study. SI receives research funding support from Genentech, PharmaMar, AstraZeneca, Merck (all to institution); and consulting fees from Genentech, Hengrui, Puma, Immunomedics, and Myriad. PL reports serving on advisory boards at AbbVie (2018?2019), Alexion (2016?2017), Ariad (2016?2017), GenMab (2016?2018), Glenmark (2016?2017), Menarini (2016?2017), Novartis (2016?2017), CytomX (2016?2019), Omniox (2016?2017), Ignyta (2016?2017), Genentech (2016?2019), Takeda (2017?2020), SOTIO Consultant (2018?2019), Cybrexa (2018?2019), Agenus (2018?2020), IQVIA (2019?2020), TRIGR (2019?2020), Pfizer (2019?2020), I-MAB (2019?2020), ImmunoMet (2018?2020), Black Diamond (2019?2020), Sartarius (2019?2020), and GlaxoSmithKline (2019?2020); data safety monitoring boards/committees at Agios (2016?2019), Five Prime (2017?2020), Halozyme (2016?2019), FivePrime (2017?2019), and Tyme (2018?2020); and reports work with the imCORE Alliance at Roche-Genentech (2016?2019). VAA filed a patent (WO2017161175A1) on methods applied in this study. SMT reports receiving institutional research support from Merck, Bristol-Myers Squibb, Exelixis, Eli Lilly, Pfizer, Novartis, AstraZeneca, Eisai, Nektar, Odonate, Sanofi, and Genentech and has served on advisory boards for Genentech, Eli Lilly, Novartis, Pfizer, Nektar, Immunomedics, Nanostring, Daiichi-Sankyo, Bristol-Meyers Squibb, Sanofi, Athenex, AstraZeneca, Eisai, Puma, and Merck. UM reports serving on advisory boards (paid) at Astrazeneca, Myriad Genetics, Clovis, Eli Lilly, Mersana, Geneos, Fuji Film, Cerulean; and consulting (paid) for Merck, 2X Oncology and Immunogen. IEK receives institutional research funding from Genentech/Roche, Pfizer, Daiichi-Sankyo; has advisory board (honoraria) roles at Genentech/Roche, Daiichi-Sankyo, Macrogenics, Context Therapeutics, Taiho Oncology; and reports DSMC (honoraria) at Merck; and reports DSMB (honoraria) at Novartis. EPW institutional research funding from Genentech/Roche and Merck; consultant/honoraria from Carrick Therapeutics, Genentech/Roche, Genomic Health, GSK, Jounce, Lilly, Merck, Seattle Genetics; advisory board/honoraria from Leap. ADD reports receiving commercial research grants from Eli Lilly & Company, Sierra Oncology, and EMD Serono and is a consultant/advisory board member for Eli Lilly & Company, Sierra Oncology, and EMD Serono. GIS has received research funding from Eli Lilly, Merck KGaA/EMD-Serono, Merck, and Sierra Oncology. He has served on advisory boards for Pfizer, Eli Lilly, G1 Therapeutics, Roche, Merck KGaA/EMD-Serono, Sierra Oncology, Bicycle Therapeutics, Fusion Pharmaceuticals, Cybrexa Therapeutics, Astex, Almac, Ipsen, Bayer, Angiex, and Daiichi Sankyo. NUL reports institutional research funding from Genentech, Merck, Pfizer, Seattle Genetics; and consulting/ad board roles at Puma, Daichii, Seattle Genetics. NW was previously a stockholder and consultant for Foundation Medicine; has been a consultant/advisor for Novartis and Eli Lilly; and has received sponsored research support from Novartis and Puma Biotechnology. None of these entities had any role in the conceptualization, design, data collection, analysis, decision to publish, or preparation of the manuscript. All other authors report no conflicts of interest. Funding Information: AW receives institutional research funding from Genentech and MacroGenics. SW reports consulting/advisory board role for Foundation Medicine, InfiniteMD, Eli Lilly, and Puma Biotechnology; and equity in InfiniteMD. SSF filed a patent (WO2017161175A1) on methods applied in this study. SI receives research funding support from Genentech, PharmaMar, AstraZeneca, Merck (all to institution); and consulting fees from Genentech, Hengrui, Puma, Immunomedics, and Myriad. PL reports serving on advisory boards at AbbVie (2018–2019), Alexion (2016–2017), Ariad (2016–2017), GenMab (2016–2018), Glenmark (2016–2017), Menarini (2016–2017), Novartis (2016–2017), CytomX (2016–2019), Omniox (2016–2017), Ignyta (2016–2017), Genentech (2016–2019), Takeda (2017–2020), SOTIO Consultant (2018–2019), Cybrexa (2018–2019), Agenus (2018–2020), IQVIA (2019–2020), TRIGR (2019–2020), Pfizer (2019–2020), I-MAB (2019–2020), ImmunoMet (2018–2020), Black Diamond (2019–2020), Sartarius (2019–2020), and GlaxoSmithKline (2019–2020); data safety monitoring boards/committees at Agios (2016–2019), Five Prime (2017–2020), Halozyme (2016–2019), FivePrime (2017–2019), and Tyme (2018–2020); and reports work with the imCORE Alliance at Roche-Genentech (2016–2019). VAA filed a patent (WO2017161175A1) on methods applied in this study. SMT reports receiving institutional research support from Merck, Bristol-Myers Squibb, Exelixis, Eli Lilly, Pfizer, Novartis, AstraZeneca, Eisai, Nektar, Odonate, Sanofi, and Genentech and has served on advisory boards for Genentech, Eli Lilly, Novartis, Pfizer, Nektar, Immunomedics, Nanostring, Daiichi-Sankyo, Bristol-Meyers Squibb, Sanofi, Athenex, AstraZeneca, Eisai, Puma, and Merck. UM reports serving on advisory boards (paid) at Astrazeneca, Myriad Genetics, Clovis, Eli Lilly, Mersana, Geneos, Fuji Film, Cerulean; and consulting (paid) for Merck, 2X Oncology and Immunogen. IEK receives institutional research funding from Genentech/Roche, Pfizer, Daiichi-Sankyo; has advisory board (honoraria) roles at Genentech/Roche, Daiichi-Sankyo, Macrogenics, Context Therapeutics, Taiho Oncology; and reports DSMC (honoraria) at Merck; and reports DSMB (honoraria) at Novartis. EPW institutional research funding from Genentech/Roche and Merck; consultant/honoraria from Carrick Therapeutics, Genentech/Roche, Genomic Health, GSK, Jounce, Lilly, Merck, Seattle Genetics; advisory board/honoraria from Leap. ADD reports receiving commercial research grants from Eli Lilly & Company, Sierra Oncology, and EMD Serono and is a consultant/advisory board member for Eli Lilly & Company, Sierra Oncology, and EMD Serono. GIS has received research funding from Eli Lilly, Merck KGaA/EMD-Serono, Merck, and Sierra Oncology. He has served on advisory boards for Pfizer, Eli Lilly, G1 Therapeutics, Roche, Merck KGaA/EMD-Serono, Sierra Oncology, Bicycle Therapeutics, Fusion Pharmaceuticals, Cybrexa Therapeutics, Astex, Almac, Ipsen, Bayer, Angiex, and Daiichi Sankyo. NUL reports institutional research funding from Genentech, Merck, Pfizer, Seattle Genetics; and consulting/ad board roles at Puma, Daichii, Seattle Genetics. NW was previously a stockholder and consultant for Foundation Medicine; has been a consultant/advisor for Novartis and Eli Lilly; and has received sponsored research support from Novartis and Puma Biotechnology. None of these entities had any role in the conceptualization, design, data collection, analysis, decision to publish, or preparation of the manuscript. All other authors report no conflicts of interest. Publisher Copyright: © 2020
PY - 2020/5
Y1 - 2020/5
N2 - Background: Little is known about mechanisms of resistance to poly(adenosine diphosphate-ribose) polymerase inhibitors (PARPi) and platinum chemotherapy in patients with metastatic breast cancer and BRCA1/2 mutations. Further investigation of resistance in clinical cohorts may point to strategies to prevent or overcome treatment failure. Patients and methods: We obtained tumor biopsies from metastatic breast cancer patients with BRCA1/2 deficiency before and after acquired resistance to PARPi or platinum chemotherapy. Whole exome sequencing was carried out on each tumor, germline DNA, and circulating tumor DNA. Tumors underwent RNA sequencing, and immunohistochemical staining for RAD51 foci on tumor sections was carried out for functional assessment of intact homologous recombination (HR). Results: Pre- and post-resistance tumor samples were sequenced from eight patients (four with BRCA1 and four with BRCA2 mutation; four treated with PARPi and four with platinum). Following disease progression on DNA-damaging therapy, four patients (50%) acquired at least one somatic reversion alteration likely to result in functional BRCA1/2 protein detected by tumor or circulating tumor DNA sequencing. Two patients with germline BRCA1 deficiency acquired genomic alterations anticipated to restore HR through increased DNA end resection: loss of TP53BP1 in one patient and amplification of MRE11A in another. RAD51 foci were acquired post-resistance in all patients with genomic reversion, consistent with reconstitution of HR. All patients whose tumors demonstrated RAD51 foci post-resistance were intrinsically resistant to subsequent lines of DNA-damaging therapy. Conclusions: Genomic reversion in BRCA1/2 was the most commonly observed mechanism of resistance, occurring in four of eight patients. Novel sequence alterations leading to increased DNA end resection were seen in two patients, and may be targetable for therapeutic benefit. The presence of RAD51 foci by immunohistochemistry was consistent with BRCA1/2 protein functional status from genomic data and predicted response to later DNA-damaging therapy, supporting RAD51 focus formation as a clinically useful biomarker.
AB - Background: Little is known about mechanisms of resistance to poly(adenosine diphosphate-ribose) polymerase inhibitors (PARPi) and platinum chemotherapy in patients with metastatic breast cancer and BRCA1/2 mutations. Further investigation of resistance in clinical cohorts may point to strategies to prevent or overcome treatment failure. Patients and methods: We obtained tumor biopsies from metastatic breast cancer patients with BRCA1/2 deficiency before and after acquired resistance to PARPi or platinum chemotherapy. Whole exome sequencing was carried out on each tumor, germline DNA, and circulating tumor DNA. Tumors underwent RNA sequencing, and immunohistochemical staining for RAD51 foci on tumor sections was carried out for functional assessment of intact homologous recombination (HR). Results: Pre- and post-resistance tumor samples were sequenced from eight patients (four with BRCA1 and four with BRCA2 mutation; four treated with PARPi and four with platinum). Following disease progression on DNA-damaging therapy, four patients (50%) acquired at least one somatic reversion alteration likely to result in functional BRCA1/2 protein detected by tumor or circulating tumor DNA sequencing. Two patients with germline BRCA1 deficiency acquired genomic alterations anticipated to restore HR through increased DNA end resection: loss of TP53BP1 in one patient and amplification of MRE11A in another. RAD51 foci were acquired post-resistance in all patients with genomic reversion, consistent with reconstitution of HR. All patients whose tumors demonstrated RAD51 foci post-resistance were intrinsically resistant to subsequent lines of DNA-damaging therapy. Conclusions: Genomic reversion in BRCA1/2 was the most commonly observed mechanism of resistance, occurring in four of eight patients. Novel sequence alterations leading to increased DNA end resection were seen in two patients, and may be targetable for therapeutic benefit. The presence of RAD51 foci by immunohistochemistry was consistent with BRCA1/2 protein functional status from genomic data and predicted response to later DNA-damaging therapy, supporting RAD51 focus formation as a clinically useful biomarker.
KW - BRCA1
KW - BRCA2
KW - breast cancer
KW - PARP inhibitor
KW - platinum
UR - http://www.scopus.com/inward/record.url?scp=85082764231&partnerID=8YFLogxK
U2 - 10.1016/j.annonc.2020.02.008
DO - 10.1016/j.annonc.2020.02.008
M3 - Article
C2 - 32245699
AN - SCOPUS:85082764231
SN - 0923-7534
VL - 31
SP - 590
EP - 598
JO - Annals of Oncology
JF - Annals of Oncology
IS - 5
ER -