Edmund Metcalfe

In Vitro and in Vivo Metabolism of Lu-AMBA, a GRP-Receptor Binding Compound, and the Synthesis and Characterization of Its Metabolites

The metabolism of (177)Lu-AMBA (AMBA = DO3A-CH(2)CO-G-(4-aminobenzoyl)-QWAVGHLM-NH(2)), a radiotherapeutic compound in clinical development that binds to GRP and NMB receptors, was studied in vitro (mouse, rat and human plasma, mouse kidney homogenate) and in vivo (by analysis of mouse and rat plasma and urine following IV injection of (177)Lu-AMBA). The primary metabolites were Lu-DO3A-CH(2)CO-G-Abz4-R, where R = -Q-OH (A), -QW-OH (B), and -QWAVGH-OH (C). Minor amounts of (D) where R = -QWAVGHLM-OH and (E) -QWAVGHL-OH were also observed. Clearance of (177)Lu-AMBA and of radioactivity from mouse and rat blood was rapid in vivo. In mouse and rat urine, only metabolites Lu-A and Lu-B were found-no parent drug was excreted. Unmetalated ligands and (nat)Lu and (177)Lu complexes for Lu-AMBA metabolites A-E were synthesized, characterized by HPLC and MS, and used to perform in vitro competition and direct binding studies on GRP receptor-positive PC-3 (human prostate) cancer cells. Biodistribution studies with (177)Lu-labeled metabolites A-E were performed in PC-3 tumor-bearing mice and the results compared with intact (177)Lu-AMBA. IC(50) values for unmetalated metabolite ligands A-E were >400 nM in PC-3 cells in competition binding studies against (177)Lu-AMBA. No direct binding to PC-3 cells was observed with (177)Lu-labeled A-C, confirming IC(50) results. (177)Lu-labeled metabolites A-E showed no uptake in GRP-receptor positive tumor or pancreas in PC-3 tumor bearing mice. All metabolites were rapidly excreted via the renal route (approximately 78-87%) within 1 h. These results demonstrate that the tumor uptake observed with (177)Lu-AMBA is due to parent drug and not due to any of its identified metabolites.

Synthesis, stabilization and formulation of [177Lu]Lu-AMBA, a systemic radiotherapeutic agent for Gastrin Releasing Peptide receptor positive tumors

A robust formulation was developed for [(177)Lu]Lu-AMBA ((177)Lu-DO3A-CH(2)CO-G-[4-aminobenzoyl]-QWAVGHLM-NH(2)), a Bombesin-like agonist with high affinity for Gastrin Releasing Peptide (GRP) receptors. During optimization of labeling, the effect of several radiostabilizers was evaluated; a combination of selenomethionine and ascorbic acid showed superiority over other tested radiostabilizers. The resulting two-vial formulation maintains a radiochemical purity (RCP) of >90% for at least 2 days at room temperature. The method of stabilization should be useful for other methionine-containing peptide radiopharmaceuticals in diagnostic and therapeutic applications.

Isolation of a 177Hf complex formed by beta-decay of a 177Lu-labeled radiotherapeutic compound and NMR structural elucidation of the ligand and its Lu and Hf complexes.

(177)Lu-AMBA (AMBA = DO3A-CH(2)CO-G-[4-aminobenzoyl]-QWAVGHLM-NH(2)) is being developed for the radiotherapeutic treatment of tumors that express the gastrin-releasing peptide receptor (GRP-R). In this study we investigated the fate of the (177)hafnium ((177)Hf) that forms upon the decay of (177)Lu while the latter is complexed with AMBA. When decayed solutions of (177)Lu-AMBA were analyzed, it was found that (177)Hf is retained in the DO3A monoamide chelator, forming a pair of interconverting isomers. We report the synthesis and full characterization of (nat)Lu-AMBA and the studies performed to demonstrate its correspondence to radioactive (177)Lu-AMBA. We also report the synthesis and characterization of Hf-AMBA and, by NMR studies, show structural analogies between Hf-AMBA, its parent compound Lu-AMBA, and the unmetallated AMBA ligand. In the NMR spectra of both the metallated and unmetallated AMBA ligand, a stacking interaction between the amino benzoyl residue in the linker and a tryptophan in the truncated bombesin [BBN(7-14)-NH(2)] peptide targeting group was found.