Rational design of NT-PSMA heterobivalent probes for prostate cancer theranostics.

Targeting the prostate-specific membrane antigen (PSMA) with radiopharmaceuticals for imaging and/or therapy has demonstrated significant advancement in the management of prostate cancer patients. However, PSMA targeting remains unsuccessful in prostate cancers with low expression of PSMA, which account for 15% of cases. The neurotensin receptor-1 (NTS) has been highlighted as a suitable oncotarget for imaging and therapy of PSMA-negative prostate cancer lesions.

Development of Radiopharmaceuticals for NPY Receptor-5 (Y5) Nuclear Imaging in Tumors by Synthesis of Specific Agonists and Investigation of Their Binding Mode.

The neuropeptide-Y (NPY) family acts through four G protein-coupled receptor subtypes in humans, namely, Y, Y, Y, and Y. A growing body of evidence suggest the involvement of the NPY system in several cancers, notably the Y subtype, thus acting as a relevant target for the development of radiopharmaceuticals for imaging or targeted radionuclide therapy (TRT). Here, the [cPP(1-7),NPY(19-23),Ala,Aib,Gln]hPP scaffold, further referred to as sYago, was modified with a DOTA chelator and radiolabeled with Ga and In and investigated and using the MCF-7 model.

Modular One-Pot Strategy for the Synthesis of Heterobivalent Tracers.

Bivalent ligands, i.e., molecules having two ligands covalently connected by a linker, have been gathering attention since the first description of their pharmacological potential in the early 80s.

Design, Synthesis, and Biological Evaluation of the First Radio-Metalated Neurotensin Analogue Targeting Neurotensin Receptor 2.

Neurotensin receptor 2 (NTS) is a well-known mediator of central opioid-independent analgesia. Seminal studies have highlighted NTS overexpression in a variety of tumors including prostate cancer, pancreas adenocarcinoma, and breast cancer. Herein, we describe the first radiometalated neurotensin analogue targeting NTS.

Ga-Radiolabeling and Pharmacological Characterization of a Kit-Based Formulation of the Gastrin-Releasing Peptide Receptor (GRP-R) Antagonist RM2 for Convenient Preparation of [Ga]Ga-RM2.

Background: [Ga]Ga-RM2 is a potent Gastrin-Releasing Peptide-receptor (GRP-R) antagonist for imaging prostate cancer and breast cancer, currently under clinical evaluation in several specialized centers around the world. Targeted radionuclide therapy of GRP-R-expressing tumors is also being investigated. We here report the characteristics of a kit-based formulation of RM2 that should ease the development of GRP-R imaging and make it available to more institutions and patients.