Abstract 1206P
Background
Previous studies have shown the treatment indication for poly(ADP-ribose) polymerase inhibitors could expand to patients with instable genome, characterized by homologous recombination deficiency (HRD) status beyond those with BRCA mutations (NOVA trials, ARIEL2/3 trials and QUADRA trials). Recent studies showed that pancreatic and prostate cancer patients with BRCA mutations could also benefit from PARPi treatment. Therefore, evaluating HRD status in Breast, Ovarian, Prostate and Pancreatic cancers could reveal additional cases who may potentially benefit from this novel target therapy.
Methods
We developed an HRD score algorithm, termed as 3DMedHRD, to characterize genomic instability of tumors using over 10000 SNPs. It combines three classical factors, including loss of heterozygosity score (LOH), telomeric allelic imbalance score (TAI), large-scale state transition score (LST), along with an optimized tumor ploidy and purity prediction algorithm. The method was trained using 45 BRCA-deficient and 25 BRCA-intact tumor samples. HRD score cutoff was determined to achieve 95% sensitivity. BRCA-deficiency was defined to possess deleterious germline or somatic mutation in BRCA1 or BRCA2, with loss of second allele by LOH in the affected gene. The cutoff was subsequently evaluated by an independent cohort to demonstrate similar performance. We then applied the model to characterize the population frequency of HRD positivity across tumor types using samples collected in a local LDT lab in Shanghai.
Results
The observed frequency of patients with deleterious BRCA 1/2 mutation are 10.4%, 21.6%, 5.1% and 4.1% for Breast (n = 106), Ovarian (n = 134), Prostate (n = 59), Pancreatic cancers (n = 270) respectively. The corresponding percentage of HRD positive cases in BRCA wildtype patients are 38.7%, 35.1%, 10.2% , 5.6%. When considering patients with either BRCA1/2 mutations or positive HRD status, the population frequencies are 49.1%, 56.7%, 15.3%, 9.6%.
Conclusions
We here report the development of the 3DMedHRD score as a biomarker to quantify the “genomic scar” of tumor tissues. A retrospective analysis of over 500 cases first time revealed HRD population frequencies in a Chinese cohort.
Clinical trial identification
Editorial acknowledgement
Legal entity responsible for the study
3DMedicines Inc.
Funding
3DMedicines Inc.
Disclosure
All authors have declared no conflicts of interest.