- Swisher, Elizabeth M;
- Kwan, Tanya T;
- Oza, Amit M;
- Tinker, Anna V;
- Ray-Coquard, Isabelle;
- Oaknin, Ana;
- Coleman, Robert L;
- Aghajanian, Carol;
- Konecny, Gottfried E;
- O’Malley, David M;
- Leary, Alexandra;
- Provencher, Diane;
- Welch, Stephen;
- Chen, Lee-may;
- Wahner Hendrickson, Andrea E;
- Ma, Ling;
- Ghatage, Prafull;
- Kristeleit, Rebecca S;
- Dorigo, Oliver;
- Musafer, Ashan;
- Kaufmann, Scott H;
- Elvin, Julia A;
- Lin, Douglas I;
- Chambers, Setsuko K;
- Dominy, Erin;
- Vo, Lan-Thanh;
- Goble, Sandra;
- Maloney, Lara;
- Giordano, Heidi;
- Harding, Thomas;
- Dobrovic, Alexander;
- Scott, Clare L;
- Lin, Kevin K;
- McNeish, Iain A
ARIEL2 (NCT01891344) is a single-arm, open-label phase 2 study of the PARP inhibitor (PARPi) rucaparib in relapsed high-grade ovarian carcinoma. In this post hoc exploratory biomarker analysis of pre- and post-platinum ARIEL2 samples, RAD51C and RAD51D mutations and high-level BRCA1 promoter methylation predict response to rucaparib, similar to BRCA1/BRCA2 mutations. BRCA1 methylation loss may be a major cross-resistance mechanism to platinum and PARPi. Genomic scars associated with homologous recombination deficiency are irreversible, persisting even as platinum resistance develops, and therefore are predictive of rucaparib response only in platinum-sensitive disease. The RAS, AKT, and cell cycle pathways may be additional modulators of PARPi sensitivity.