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Article Abstract
Fibroblast activation protein (FAP)-targeting radioligands hold promise for cancer theranostics. Cyclic peptide-based DOTA-FAP-2286 radioligands have demonstrated high kidney uptake and retention, raising concerns regarding potential nephrotoxicity. Hence, we aimed to design three cysteic acid-modified FAP-targeting cyclic peptide ligands (DOTA-C1/C2/C3-FAP-2286) for reducing renal retention and optimizing pharmacokinetic properties. Competitive binding assays revealed maintained potent affinity for FAP (IC < 150 nM). Following systematic preclinical evaluation, [Ga]Ga-C1-FAP-2286 exhibited optimal biodistribution characteristics, reducing renal uptake by 50% (2.12 ± 0.19% ID/g, < 0.05), while maintaining tumor accumulation (7.08 ± 0.35 vs 6.26 ± 0.82% ID/g for [Ga]Ga-FAP-2286), yielding a significantly improved tumor-to-kidney ratio (3.34 ± 0.15 vs 1.59 ± 0.53% ID/g). First-in-human PET/CT imaging in a metastatic gastric cancer patient demonstrated superior diagnostic performance compared to [F]FDG, with intense uptake in primary lesions (SUV = 3.0), including [F]FDG-negative and metastatic lesions. Thus, [Ga]Ga-C1-FAP-2286 is a clinically translatable tracer for imaging FAP-expressing malignancies.
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