化学
动力学
药品
结合
小分子
药理学
生物化学
医学
数学
量子力学
物理
数学分析
作者
Matilde Bocci,Lucrezia Principi,Dario Neri,Samuele Cazzamalli,Ettore Gilardoni,Andrea Galbiati
标识
DOI:10.1158/1535-7163.mct-25-0026
摘要
Antibody-drug conjugates are one of the most diffused targeted therapeutic modalities for cancer treatment and consist of a tumor-targeted monoclonal antibody connected to a cytotoxic payload, which is released selectively at the tumor site. Small molecule-drug conjugates (SMDC) represent an alternative approach, in which the antibody is replaced by a tumor-homing small organic ligand. Thanks to their small molecular size, SMDCs are characterized by rapid extravasation and enhanced penetration in solid tumors compared with antibody-drug conjugates. We recently developed SMDCs targeting fibroblast activation protein (FAP), a cell surface endopeptidase abundant in the tumor microenvironment, using the highly specific FAP inhibitor OncoFAP as a targeting moiety. In this study, we compared the tumor-targeting properties and in vivo activity of SMDCs based on OncoFAP against products based on a stronger FAP inhibitor (i.e., trivalent OncoFAP), aiming to tune the release kinetic of the cytotoxic payload to the neoplastic site. We compared the kinetic profiles of the monovalent and trivalent derivatives of OncoFAP through in vivo and ex vivo biodistribution and therapy studies. The distinct in vivo monomethyl auristatin E (MMAE) release obtained for OncoFAP-GlyPro-MMAE and TriOncoFAP-GlyPro-MMAE did not lead to substantial differences in therapeutic efficacy in a preclinical FAP-positive cancer model.
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