Background/Objectives: This study explores the potential of the inducible G protein-coupled kinin B1 receptor (B1R) as a target for the diagnosis and treatment of prostate cancer (PCa) and aims to develop the first theranostic agent targeting hB1R for both molecular imaging and radionuclide therapy. Methods: B1R expression was analyzed via qPCR and immunohistochemistry in human PCa cells and tissues specimens. A novel 64Cu/NOTA-conjugated peptide analog of the potent B1R antagonist R954 was synthetized and evaluated in vitro and in vivo. Results: B1R was confirmed to be expressed (RNA, protein) by varying degrees in all PCa cell lines and tissues investigated, with protein level significantly correlating with tumor grades. This finding was supported by similar analyses from the TCGA and MSKCC databases. In vitro, the 64Cu/NOTA-βAla-R954 conjugate showed nanomolar affinity/potency at hB1R, complete plasma stability over 24 h, significant cellular uptake (up to 33% of ID at 24 h), and dose-dependent anti-clonal growth effects. In vivo, the radioconjugate remained stable in circulation for up to 90 min and was primarily excreted intact via the kidneys following IV administration. Intravenous 64Cu/NOTA-βAla-R954 (7.5 MBq) effectively detected subcutaneous PCa xenografts via µPET imaging in male athymic nude mice. At a single higher dose (65 MBq; 50 µg/kg), it significantly reduced tumor growth without observable toxicity. This antitumor effect was associated with increased apoptosis (active caspase-3) and reduced proliferation (Ki67), as shown by immunohistochemistry. In contrast, the nonradioactive NatCu/NOTA-βAla-R954 had no therapeutic effect at the same dose. Conclusions: Our findings provide proof-of-concept for the potential theranostic use of 64Cu/NOTA-R954 in PCa, and potentially other types of B1R-positive solid cancers.
Keywords: GPCR B1 receptor; kinins; peptide antagonist; prostate cancer; theranostics.