Radiometal-Dependent Biological Profile of the Radiolabeled Gastrin-Releasing Peptide Receptor Antagonist SB3 in Cancer Theranostics: Metabolic and Biodistribution Patterns Defined by Neprilysin.

Recent advances in oncology involve the use of diagnostic/therapeutic radionuclide-carrier pairs that target cancer cells, offering exciting opportunities for personalized patient treatment. Theranostic gastrin-releasing peptide receptor (GRPR)-directed radiopeptides have been proposed for the management of GRPR-expressing prostate and breast cancers. We have recently introduced the PET tracer Ga-SB3 (SB3, DOTA- p-aminomethylaniline-diglycolic acid-DPhe-Gln-Trp-Ala-Val-Gly-His-Leu-NHEt), a receptor-radioantagonist that enables the visualization of GRPR-positive lesions in humans.

New Gastrin Releasing Peptide Receptor-Directed [Tc]Demobesin 1 Mimics: Synthesis and Comparative Evaluation.

We have previously reported on the gastrin releasing peptide receptor (GRPR) antagonist [Tc]1, ([Tc]demobesin 1, Tc-[N'-diglycolate-dPhe,Leu-NHEt]BBN(6-13)). [Tc]1 has shown superior biological profile compared to analogous agonist-based Tc-radioligands. We herein present a small library of [Tc]1 mimics generated after structural modifications in (a) the linker ([Tc]2, [Tc]3, [Tc]4), (b) the peptide chain ([Tc]5, [Tc]6), and (c) the C-terminus ([Tc]7 or [Tc]8).

In vivo inhibition of neutral endopeptidase enhances the diagnostic potential of truncated gastrin (111)In-radioligands.

Introduction: Radiolabeled gastrin analogs represent attractive candidates for diagnosis and therapy of cholecystokinin subtype-2 receptor (CCK2R)-expressing tumors. Radiolabeled des(Glu)5-gastrins show favorably low renal accumulation, but localize poorly in CCK2R-positive lesions. We introduce herein three truncated [DOTA-DGlu(10)]gastrin(10-17) analogs, with oxidation-susceptible Met(15) replaced by: (1), (2), or (3), and study the profile of [(111)In]1/2/3 during in vivo inhibition of neutral endopeptidase (NEP) in comparison to the non-truncated [ ([(111)In]4) reference.

Tumor diagnosis with new 111In-radioligands based on truncated human gastrin releasing peptide sequences: synthesis and preclinical comparison.

Radiolabeled analogs of the frog tetradecapeptide bombesin (BBN) have been proposed for diagnosis and therapy of gastrin releasing peptide receptor (GRPR)-expressing tumors. Following a different and yet unexplored approach, we have developed four novel (111)In-labeled truncated analogs of the human 27-mer GRP after conjugation of 1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid (DOTA) at the N-terminus of GRP(13/14/17/18-27) fragments. Analog affinities for the human GRPR determined against [(125)I-Tyr(4)]BBN were at the nanomolar level and dependent on truncation site.

99mTc radiotracers based on human GRP(18-27): synthesis and comparative evaluation.

Unlabelled: Gastrin-releasing peptide receptors (GRPRs) expressed on human tumors can serve as molecular targets for radiolabeled peptide analogs based on the frog tetradecapeptide bombesin (BBN). We have recently expanded this approach toward human GRP(18-27) sequences and introduced (99m)Tc-demomedin C, our first radiotracer based on GRP(18-27), showing favorable biologic characteristics during preclinical evaluation in rodents. We now present a series of (99m)Tc-demomedin C analogs, generated by single-Gly(24) or double-Gly(24)/Met(27) substitutions in the peptide chain, and compare their performance in GRPR-positive in vitro and in vivo models.

Cyclic minigastrin analogues for gastrin receptor scintigraphy with technetium-99m: preclinical evaluation.

Two cyclized minigastrin analogues for gastrin receptor scintigraphy were synthesized and derivatized with HYNIC at the N-terminus for labeling with 99mTc. Radiolabeling efficiency, stability, cell internalization, and receptor binding on CCK-2 receptor expressing AR42J cells were studied and the biodistribution evaluated in tumor bearing nude mice, including NanoSPECT/CT imaging. Metabolites in urine, liver, and kidneys were analyzed by radio-HPLC.