Increased synthetic cytotoxicity of combinatorial chemo-radiotherapy in homologous recombination deficient tumors.

BACKGROUND:Homologous recombination deficient (HRD) tumors are exquisitely sensitive to platinum-based chemotherapy and when combined with RT, leads to improved overall survival in multiple cancer types. Whether a subset of tumors with distinct molecular characteristics demonstrate increased benefit from cisplatin and RT (c-RT) is unclear. We hypothesized that HRD tumors, whether associated with BRCA mutations or genomic scars of HRD, exhibit exquisite sensitivity to c-RT, and that HRD may be a significant driver of c-RT benefit. METHODS:Sensitivity to c-RT was examined using isogenic and sporadic breast cancer cell lines. HRD was assessed using four assays: RT-induced Rad51 foci, a DR-GFP reporter assay, a genomic scar (large scale state transitions, LST), and clonogenic survival assays (CSA). Whole genome sequencing of 4 breast tumors from a phase 2 clinical trial of neoadjuvant c-RT in triple negative breast cancer (TNBC) was performed and defined HRD utilizing HRDetect. RESULTS:BRCA1/2 deficient cell lines displayed functional HRD based on the Rad51 functional assay, with c-RT to RT or cisplatin interaction ratios (IR) of 1.11 and 26.84 for the BRCA1 isogenic pair at 2uM Cisplatin and 6Gy, respectively. The highest LST lines demonstrated HRD and synthetic cytotoxicity to c-RT with IR at 2Gy and Cisplatin 20uM of 7.50, and the lowest LST line with IR of 0.65. Of 4 evaluable patients on the Phase 2 trial, one achieved pathologic complete response (pCR) with corresponding HRD based on multiple genomic scar scores including HRDetect and LST scores, compared with patients without pCR. CONCLUSIONS:HRD breast cancers, whether identified by BRCA1/2 mutation status, functional tests or mutational signatures, appear to be significantly more sensitive to c-RT compared to isogenic controls or tumors without HRD mutational signature. HRD tumors may be exquisitely sensitive to c-RT and warrants further clinical investigation to guide a precision oncology approach.