Glycated Tc-Tricarbonyl-Labeled Peptide Conjugates for Tumor Targeting by "Click-to-Chelate".

Attaching polar pharmacological modifiers to molecular imaging probes is a common strategy to modulate their pharmacokinetic profiles to improve such parameters as the clearance rate of radiotracers and/or metabolites, and to enhance signal-to-background ratios. We combined the tumor-targeting peptide sequence of bombesin (BBN) with glucuronic acid and the single-photon emission computed tomography (SPECT) radionuclide Tc by the "click-to-chelate" methodology. The Tc-tricarbonyl-labeled glucuronated BBN conjugate was compared with a reference compound lacking the carbohydrate.

Probing the Backbone Function of Tumor Targeting Peptides by an Amide-to-Triazole Substitution Strategy.

Novel backbone-modified radiolabeled analogs based on the tumor targeting peptide bombesin were synthesized and fully evaluated in vitro and in vivo. We have recently introduced the use of 1,4-disubstituted 1,2,3-triazoles as metabolically stable trans-amide bond surrogates in radiolabeled peptides in order to improve their tumor targeting. As an extension of our approach, we now report several backbone-modified analogs of the studied bombesin peptide bearing multiple triazole substitutions.

Development of 68Ga- and 89Zr-Labeled Exendin-4 as Potential Radiotracers for the Imaging of Insulinomas by PET.

Unlabelled: Clinical studies have demonstrated the potential of radiometallated exendin-4 derivatives for the imaging of glucagonlike peptide-1 receptor-overexpressing insulinomas. Recently investigated exendin-4 derivatives were radiolabeled with the SPECT isotopes 99mTc or 111In. Despite promising results, the low spatial resolution associated with SPECT and the occasional need to perform imaging several days after injection for the demarcation of insulinomas from the kidneys represent current limitations.

An octadentate bifunctional chelating agent for the development of stable zirconium-89 based molecular imaging probes.

(89)Zr-based imaging agents hold great promise as novel radio-tracers in nuclear medicine. However, insufficient stability of currently used radiometal complexes in vivo is a safety concern for clinical applications. We herein report the first octadentate bifunctional chelating agent for the development of (89)Zr-labelled (bio)conjugates with improved stability.

A bombesin-shepherdin radioconjugate designed for combined extra- and intracellular targeting.

Radiolabeled peptides which target tumor-specific membrane structures of cancer cells represent a promising class of targeted radiopharmaceuticals for the diagnosis and therapy of cancer. A potential drawback of a number of reported radiopeptides is the rapid washout of a substantial fraction of the initially delivered radioactivity from cancer cells and tumors. This renders the initial targeting effort in part futile and results in a lower imaging quality and efficacy of the radiotracer than achievable.