In this study, we synthesized 18F-ASu-BF3, a close boramino acid analog of 5-[18F]fluoro-aminosuberic acid (18F-ASu), via 18F-19F isotope exchange reaction and evaluated its potential for imaging with positron emission tomography (PET). 18F-ASu-BF3 was stable in mouse plasma and taken up into PC3 prostate cancer cells via the system xC- amino acid transporter. The continuous use of isoflurane for anesthesia during dynamic imaging acquisition slowed down the excretion of 18F-ASu-BF3 and enabled visualization of PC3 tumor xenografts in mice. In contrast, no tumor visualization was observed from static images of 18F-BF3-ASu due to its rapid renal excretion mediated in part by the organic anion transporter. Our data indicate that the pharmacokinetics of amino acids could be altered after being converted into their boramino acid analogs. Therefore, care should be taken when using the boramino acid strategy to design and prepare 18F-labeled tracers for imaging amino acid transporters/receptors with PET.
Keywords: Aminosuberic acid; Antiporter system x(C)(−); Boramino acid; Fluorine-18; Oxidative stress; Positron emission tomography; Trifluoroborate.
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