A Novel Method of 18F Radiolabeling for PET (original) (raw)

2009, Journal of Nuclear Medicine

Small biomolecules are typically radiolabeled with 18 F by binding it to a carbon atom, a process that usually is designed uniquely for each new molecule and requires several steps and hours to produce. We report a facile method wherein 18 F is first attached to aluminum as Al 18 F, which is then bound to a chelate attached to a peptide, forming a stable Al 18 F-chelate-peptide complex in an efficient 1-pot process. Methods: For proof of principle, this method was applied to a peptide suitable for use in a bispecific antibody pretargeting method. A solution of AlCl 3 Á6H 2 O in a pH 4.0 sodium-acetate buffer was mixed with an aqueous solution of 18 F to form the Al 18 F complex. This was added to a solution of IMP 449 (NOTA-p-Bn-CS-D-Ala-D-Lys(HSG)-D-Tyr-D-Lys(HSG)-NH 2) (NOTA-p-Bn-CS is made from S-2-(4-isothiocyanatobenzyl)-1,4,7-triazacyclononane-1,4,7-triacetic acid; HSG is histamine-succinyl-glycine) and heated to 100°C for 15 min. In vitro and in vivo stability and targeting ability of the Al 18 F-IMP 449 were examined in nude mice bearing LS174T human colonic tumors pretargeted with an anti-CEACAM5 bispecific antibody (TF2). Results: The radiolabeled peptide was produced in 5%220% yield with an estimated specific activity of 18,500-48,100 GBq (500-1,300 Ci)/mmol. The Al 18 F-IMP 449 was stable for 4 h in serum in vitro, and in animals, activity isolated in the urine 30 min after injection was bound to the peptide. Nonchelated Al 18 F had higher tissue uptake, particularly in the bones, than the chelated Al 18 F-IMP 449, which cleared rapidly from the body by urinary excretion. Tumor uptake was 30fold higher with TF2-pretargeted Al 18 F-IMP 449 than with the peptide alone. Dynamic PET showed tumor localization within 30 min and rapid and thorough clearance from the body. Conclusion: The ability to bind highly stable Al 18 F to metal-binding ligands is a promising new labeling method that should be applicable to a diverse array of molecules for PET.