TBCRC 048: Phase II Study of Olaparib for Metastatic Breast Cancer and Mutations in Homologous Recombination-Related Genes

Nadine Tung(Beth Israel Deaconess Medical Center), Mark E. Robson(Memorial Sloan Kettering Cancer Center), Steffen Ventz(Dana-Farber Cancer Institute), Cesar A. Santa‐Maria(Sidney Kimmel Comprehensive Cancer Center), Rita Nanda(University of Chicago), P. Kelly Marcom(Duke Medical Center), Payal D. Shah(University of Pennsylvania), Tarah J. Ballinger(Indiana University School of Medicine), Eddy S. Yang(University of Alabama at Birmingham), Shaveta Vinayak(Seattle Cancer Care Alliance), Michelle Melisko(University of California, San Francisco), Adam Brufsky(University of Pittsburgh Medical Center), Michelle K. DeMeo(Dana-Farber Cancer Institute), C. David Jenkins(Beth Israel Deaconess Medical Center), Susan M. Domchek(University of Pennsylvania), Alan D. D’Andrea(Harvard University), Nancy U. Lin(Harvard University), Melissa E. Hughes(Dana-Farber Cancer Institute), Lisa A. Carey(University of North Carolina at Chapel Hill), Nick Wagle(Harvard University), Gerburg M. Wulf(Beth Israel Deaconess Medical Center), Ian E. Krop(Harvard University), Antonio C. Wolff(Sidney Kimmel Comprehensive Cancer Center), Eric P. Winer(Harvard University), Judy E. Garber(Harvard University)
Journal of Clinical Oncology
October 29, 2020
10.1200/jco.20.02151
Cited by 496

Abstract

PURPOSE Olaparib, a poly (ADP-ribose) polymerase (PARP) inhibitor (PARPi), is approved for the treatment of human epidermal growth factor receptor 2 (HER2)–negative metastatic breast cancer (MBC) in germline (g) BRCA1/ 2 mutation carriers. Olaparib Expanded, an investigator-initiated, phase II study, assessed olaparib response in patients with MBC with somatic (s) BRCA1/ 2 mutations or g/s mutations in homologous recombination (HR)–related genes other than BRCA1/2. METHODS Eligible patients had MBC with measurable disease and germline mutations in non- BRCA1/ 2 HR-related genes (cohort 1) or somatic mutations in these genes or BRCA1/ 2 (cohort 2). Prior PARPi, platinum-refractory disease, or progression on more than two chemotherapy regimens (metastatic setting) was not allowed. Patients received olaparib 300 mg orally twice a day until progression. A single-arm, two-stage design was used. The primary endpoint was objective response rate (ORR); the null hypothesis (≤ 5% ORR) would be rejected within each cohort if there were four or more responses in 27 patients. Secondary endpoints included clinical benefit rate and progression-free survival (PFS). RESULTS Fifty-four patients enrolled. Seventy-six percent had estrogen receptor–positive HER2-negative disease. Eighty-seven percent had mutations in PALB2, s BRCA1/ 2, ATM, or CHEK2. In cohort 1, ORR was 33% (90% CI, 19% to 51%) and in cohort 2, 31% (90% CI, 15% to 49%). Confirmed responses were seen only with g PALB2 (ORR, 82%) and s BRCA1/ 2 (ORR, 50%) mutations. Median PFS was 13.3 months (90% CI, 12 months to not available/computable [NA]) for g PALB2 and 6.3 months (90% CI, 4.4 months to NA) for s BRCA1/ 2 mutation carriers. No responses were observed with ATM or CHEK2 mutations alone. CONCLUSION PARP inhibition is an effective treatment for patients with MBC and g PALB2 or s BRCA1/ 2 mutations, significantly expanding the population of patients with breast cancer likely to benefit from PARPi beyond g BRCA1/ 2 mutation carriers. These results emphasize the value of molecular characterization for treatment decisions in MBC.

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