5060 Background: Tumor-associated calcium signal transducer 2 (TROP-2, TACSTD2) is a transmembrane glycoprotein that is highly expressed in many epithelial cancers. Overexpression of TROP-2 is postulated to mediate cancer cell growth, invasion, and is associated with more aggressive disease. TROP-2 has emerged as a therapeutic target for antibody-drug conjugates in clinical trials including sacituzumab govitecan and DS-1062. Here, we evaluated the expression of TROP-2 in tumor biopsies and circulating tumor cells (CTCs) in men with metastatic castration resistant prostate cancer (mCRPC) to evaluate TROP-2 as a clinically relevant target. Methods: RNA-seq data from the SU2C-PCF database and PROMOTE clinical trial (NCT#01953640) was assessed for TACSTD2 and androgen receptor (AR) splice variant ( AR_V7/AR_V9) expression. Prostate cancer ChIP-seq data was analyzed to identify binding of the AR to the TROP-2 promoter. EpCAM and TROP-2 captured CTCs were isolated from patients with mCRPC using the VERSA (Versatile Exclusion-based Rare Sample Analysis) platform and assessed for splice variant, neuroendocrine (NE), and AR-regulated gene signatures, in addition to CTC enumeration and TROP-2 protein expression. Results: TROP-2 expression was detectable in 90% of patients, in both bone and visceral metastatic biopsies (SUC2-PCF). Although TROP-2 low biopsies were infrequent (10%), 58% of these samples showed high levels of NE markers, as compared with 5% in all other patients. In the PROMOTE study, elevated TROP-2 gene expression was significantly higher in biopsies with high AR_V7 expression than in those with low (p = 0.04) or negative (p <.01) AR_V7 expression. ChIP-seq data demonstrated binding of AR at the TROP-2 promoter as well as at a potential enhancer site upstream, suggesting that TROP-2 expression can be regulated by AR activity. Splice variants and NE gene signatures were expressed in CTCs captured with both EpCAM and TROP-2, although markedly different gene expression profiles between EpCAM and TROP-2 CTCs were observed in a subset of patients with neuroendocrine prostate cancer. Detection of AR_V7 from TROP-2 CTCs corresponded to shorter overall survival in 20 patients with mCRPC. TROP-2 protein expression was identified on EpCAM captured CTCs, although patients exhibited a wide degree of both intra- and inter-patient heterogeneity. Conclusions: Our findings demonstrate that TROP-2 is highly expressed in mCRPC, and is reduced in a subset of patient tumors expressing neuroendocrine markers. In the PROMOTE clinical trial with abiraterone acetate, TROP-2 AR variant expression correlated with increased TROP-2 expression. Binding of the AR to the TROP-2 promoter and potential enhancer was observed in prostate cancer cell lines and biopsies. These results indicate TROP-2 is a high value a biomarker and therapeutic target mCRPC.