A comprehensive molecular characterization of aggressive variant prostate cancer (PC).

Abstract

149 Background: Unusually aggressive PC behavior is linked to small cell carcinoma (SCC) morphology. We observed SCC clinical features in association with morphologically heterogeneous PC and, in a prospective clinical trial (NCT00514540), also with chemotherapy responsiveness. Our previous studies in patient derived xenografts (PDX) revealed a distinct molecular profile for SCC. Here we sought to support the hypothesis that clinically defined aggressive variant PCs also share relevant biology with SCC. Methods: 59 PC samples, and 8 PDX, from 42 men registered to NCT00514540 were stained for RB, p53, AR, NKX3-1, ASCL1, AURKA, UBE2C and Ki67. Labeling indices (LI) were calculated as the ratio of positive epithelial cells to total of epithelial cells, at 200x. We determined copy number alterations (CNA) by Onco Scan® in 36 of 59 samples and 8 PDX lines. We used Western Blot and qRT-PCR to expand pathway analyses and their associations in PDX models. Results: Donor patients were similar to non-donor patients except for higher ECOG PS and LDH values. Strong positive correlations between nuclear AR (AR-N) and NKX3.1, AR-N and RB, AR-N and nuclear AURKA (AURKA-N), NKX3.1 and RB, p53 and nuclear UBE2C (UBE2C-N), Ki67 and UBE2C-N, Ki67 and cytoplasmic UBE2C (UBE2C-C) as well as a strong negative correlation between NKX3.1 and Ki 67 were observed. Frequent copy number losses were found for PTEN (largely gene-specific) and RB1 (often associated with regional-CNA). Gene-specific AURKA amplifications were not observed. Only RB1 CNA showed a positive correlation with its LI. Samples were segregated by quantity of CNA. PDX models shared these features and showed that only AR-negative tumors expressed pro-neural transcription factors, albeit heterogeneously. Conclusions: Our results support the hypothesis that clinically defined aggressive variant PC (including SCC and non-SCC morphologies) are characterized by frequent Rb, p53 and PTEN alterations, aberrant expression of mitotic, neural development and AR-signaling pathways, and high rates of CNA. Ongoing studies will confirm whether these molecular features distinguish this variant from the more common bone-homing, bone-forming, AR-driven adenocarcinomas of the prostate.