Abstract
(68)Ga-labeled macrocyclic ligands have been extensively studied and used for positron emission tomography (PET) imaging. Compared with 12-membered DOTA derivatives, NOTA-based chelators with 9-membered macrocyclic rings exhibit more advantageous coordination stability for Ga(3+) ions. However, studies of the 10-membered DETA macrocycle are still quite limited. Here, we present the synthesis of four different-sized chiral macrocyclic ligands L1-L4, followed by radiolabeling and stability studies to reveal the influence of ring size and chiral substituents on Ga(3+) chelation. In the (68)Ga radiolabeling experiments, chiral NOTA L1 exhibits the highest radiochemical yield of 99% at 25 °C. While for the chiral DETA L2/L3 and the chiral DOTA L4, their radiolabeling efficiencies are inferior at room temperature, but remarkable improvements were observed at higher temperatures. L1-L4 all exhibit superior Ga(3+) coordination stability than their achiral counterparts, while the chiral DETA L2 with an α-methyl group shows a slightly better performance than its β-analogue L3. Serum stability tests and kinetic studies under acid and alkaline conditions were conducted, highlighting the favorable kinetic inertness of these chiral ligands for potential (68)Ga-labeled PET imaging applications.