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Preclinical Evaluation of<sup>177</sup>Lu-OncoFAP-23, a Multivalent FAP-Targeted Radiopharmaceutical Therapeutic for Solid Tumors

Andrea Galbiati, Matilde Bocci, Domenico Ravazza, Jacqueline Mock, Ettore Gilardoni, Dario Neri, Samuele Cazzamalli

2024Journal of Nuclear Medicine32 citationsDOIOpen Access PDF

Abstract

Fibroblast activation protein (FAP) is abundantly expressed in the stroma of most human solid tumors. Clinical-stage radiolabeled FAP ligands are increasingly used as tools for the detection of various cancer lesions. To unleash the full therapeutic potential of FAP-targeting agents, ligands need to remain at the tumor site for several days after administration. We recently described the discovery of OncoFAP, a high-affinity small organic ligand of FAP with a rapid accumulation in tumors and low uptake in healthy tissues in cancer patients. Trimerization of OncoFAP provided a derivative (named TriOncoFAP, or OncoFAP-23) with improved FAP affinity. In this work, we evaluated the tissue biodistribution profile and the therapeutic performance of OncoFAP-23 in tumor-bearing mice. <b>Methods:</b> OncoFAP-23 was radiolabeled with the theranostic radionuclide <sup>177</sup>Lu. Preclinical experiments were conducted on mice bearing SK-RC-52.hFAP (BALB/c nude mice) or CT-26.hFAP (BALB/c mice) tumors. <sup>177</sup>Lu-OncoFAP and <sup>177</sup>Lu-FAP-2286 were included in the biodistribution study as controls. Toxicologic evaluation was performed on Wistar rats and CD1 mice by injecting high doses of OncoFAP-23 or its cold-labeled counterpart, respectively. <b>Results:</b><sup>177</sup>Lu-OncoFAP-23 emerged for its best-in-class biodistribution profile, high and prolonged tumor uptake (i.e., ∼16 percentage injected dose/g at 96 h), and low accumulation in healthy organs, which correlates well with its potent single-agent anticancer activity at low levels of administered radioactivity. Combination treatment with the tumor-targeted interleukin 2 (L19-IL2, a clinical-stage immunocytokine) further expands the therapeutic window of <sup>177</sup>Lu-OncoFAP-23 by potentiating its in&nbsp;vivo antitumor activity. Proteomics studies revealed a potent tumor-directed immune response on treatment with the combination. OncoFAP-23 and <sup>nat</sup>Lu-OncoFAP-23 exhibited a favorable toxicologic profile, without showing any side effects or signs of toxicity. <b>Conclusion:</b> OncoFAP-23 presents enhanced tumor uptake and tumor retention and low accumulation in healthy organs, findings that correspond to a strongly improved in&nbsp;vivo antitumor efficacy. The data presented in this work support the clinical development of <sup>177</sup>Lu-OncoFAP-23 for the treatment of FAP-positive solid tumors.

Topics & Concepts

MedicineRadiochemistryCancer researchMedical physicsNuclear medicineChemistryPeptidase Inhibition and AnalysisNeuroendocrine Tumor Research AdvancesRadiopharmaceutical Chemistry and Applications
Preclinical Evaluation of<sup>177</sup>Lu-OncoFAP-23, a Multivalent FAP-Targeted Radiopharmaceutical Therapeutic for Solid Tumors | Litcius