Genomic landscape of metastatic platin-resistant urothelial cancer patients

316 Background: Although several studies have reported genomic characterisation of primary urothelial carcinoma (UC), little is known about the genomic alterations of the metastatic cisplatin-resistant UC. We sought to define the prevalence and co-occurrence of actionable genomic alterations in patients with metastatic cisplatin-resistant lethal UC. Methods: Patients with metastatic UC, who progressed after at least one line of standard therapy, were enrolled in a prospective molecular screening trial (MOSCATO 01) at Gustave Roussy. CT-Scan or ultrasound-guided biopsies were performed in metastases to carry out a comprehensive molecular characterization. DNA was extracted from fresh tumor samples and analyzed by comparative genomic hybridization (CGH) (≥ 30% tumor cells) and by Next Generation Sequencing (NGS) for up to 74 target genes (≥ 10% tumor cells). Whole-exome (WES) and RNA seq sequencing were performed retrospectively in selected cases. Results: From 12/2011 to 12/2013, 30 heavily pretreated patients with metastatic UC were included. Median age was 61 (37-73); all patients had been treated with platin-based chemotherapy with a median number of lines of 2.5 (1-5). A tumor biopsy could be performed in 26 patients (87%). CGH and targeted exome sequencing profiles were assessed in 19 (73%) and 23 (88%) of them, respectively. A total of 19 patients (73%) were profiled for both sequencing and CGH. WES and RNA seq was performed in 16 (62%) pairs of metastatic tissue and normal DNA (Integragen Inc, Hiseq platform). Our analyses identified potential therapeutic targets in 61 % of the tumours, including 31% with targets in the PI3K/AKT/mTOR pathway, 35% with targets in the FGF/FGFR pathway and 15% with targets in the RTK/MAPK pathway (including ERBB2). Others frequent aberrations were found in the chromatin regulatory genes (MLL gene family) and cell-cycle regulatory genes (E2F3, CDKN2A/B genes). FGFR gene fusions were found in 1 out of 16 screened patients (6%) Conclusions: Lethal platin-resistant UC exhibit high-level of genomic heterogeneity. The majority of these tumors harbour actionable genomic alterations that can be targeted with selective agents currently in clinical development (phase I trials) or registered.