Abstract
Radiolabeled fibroblast activation protein (FAP) inhibitors (FAPIs) have shown promise as cancer diagnostic agents; however, the relatively short tumor retention of FAPIs may limit their application in radioligand therapy. In this paper, we report the design, synthesis, and evaluation of a FAPI tetramer. The aim of the study was to evaluate the tumor-targeting characteristics of radiolabeled FAPI multimers invitro and invivo, thereby providing information for the design of FAP-targeted radiopharmaceuticals based on the polyvalency principle. Methods: FAPI tetramers were synthesized on the basis of FAPI-46 and radiolabeled with 68Ga, 64Cu, and 177Lu. In vitro FAP-binding characteristics were identified using a competitive cell-binding experiment. To evaluate their pharmacokinetics, small-animal PET, SPECT, and ex vivo biodistribution analyses were performed on HT-1080-FAP and U87MG tumor-bearing mice. In addition, the 2 tumor xenografts received radioligand therapy with 177Lu-DOTA-4P(FAPI)4, and the antitumor efficacy of the 177Lu-FAPI tetramer was evaluated and compared with that of the 177Lu-FAPI dimer and monomer. Results: 68Ga-DOTA-4P(FAPI)4 and 177Lu-DOTA-4P(FAPI)4 were highly stable in phosphate-buffered saline and fetal bovine serum. The FAPI tetramer exhibited high FAP-binding affinity and specificity both invitro and invivo. 68Ga-, 64Cu-, and 177Lu-labeled FAPI tetramers exhibited higher tumor uptake, longer tumor retention, and slower clearance than FAPI dimers and FAPI-46 in HT-1080-FAP tumors. The uptake (percentage injected dose per gram) of 177Lu-DOTA-4P(FAPI)4, 177Lu-DOTA-2P(FAPI)2, and 177Lu-FAPI-46 in HT-1080-FAP tumors at 24 h was 21.4 ± 1.7, 17.1 ± 3.9, and 3.4 ± 0.7, respectively. Moreover, 68Ga-DOTA-4P(FAPI)4 uptake in U87MG tumors was approximately 2-fold the uptake of 68Ga-DOTA-2P(FAPI)2 (SUVmean, 0.72 ± 0.02 vs. 0.42 ± 0.03, P < 0.001) and more than 4-fold the uptake of 68Ga-FAPI-46 (0.16 ± 0.01, P < 0.001). In the radioligand therapy study, remarkable tumor suppression was observed with the 177Lu-FAPI tetramer in both HT-1080-FAP and U87MG tumor-bearing mice. Conclusion: The satisfactory FAP-binding affinity and specificity, as well as the favorable invivo pharmacokinetics of the FAPI tetramer, make it a promising radiopharmaceutical for theranostic applications. Improved tumor uptake and prolonged retention of the 177Lu-FAPI tetramer resulted in excellent characteristics for FAPI imaging and radioligand therapy.
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