Abstract 5860: Genomic architecture of prostate cancer at recurrence following radiotherapy

Aim: Spatial intra-tumoural heterogeneity of prostate cancer is secondary to differential genomics and multi-clonality, even for tumours with the same Gleason grade. These unique features promote resistance to treatment. Here, we investigated if clonal selection or adaptation of new clones dominates in prostate cancer at the time of recurrence following high dose precision radiotherapy. Methods: We identified 11 patients with biopsy-proven multi-focal recurrent prostate cancer following definitive image-guided radiotherapy/brachytherapy. Copy number aberration (CNA) profiling was performed on 33 anatomically distinct tumour foci with 11 matched-normals in the radio-resistant cohort. To assess clonality, 4 cases had matched pre-radiotherapy tumours for copy number profiling. We evaluated for recurrent driver amplifications and deletions, and genomic instability as measured by percent genome aberration (PGA). We also compared these genomic indices against 373 comprehensively profiled sporadic prostate cancers from the Canadian Prostate Cancer Gene Network [Fraser, et al., Nature, 2016]. Results: Independent of Gleason grade, we observed large intra-patient (COV of 0.66-1.13) and inter-patient heterogeneity (p