New Multifunctional Molecular Conjugate Vector for Targeting, Imaging, and Therapy of Tumors

Abstract

We report the in vitro and in vivo characteristics of a new molecular conjugate vector for targeting and imaging of tumors. Its core is a cyclodecapeptide platform named RAFT, onto which two spatially independent functional domains can be covalently and stereospecifically linked: a cell-targeting domain for tumor targeting and a labeling domain able to carry two drugs and/or labeling agents. To prove the interest of this carrier, we used a well-known cRGD cyclopeptide, a ligand for the αvβ3 integrin. We demonstrate that this vector presenting four cRGD motifs very efficiently prevents αvβ3-mediated cell adhesion to vitronectin. Furthermore, it is actively endocytosed because of the multivalent cRGD presentation, a major advantage for drug delivery. In vivo experiments in nude mice reveal that repeated intratumoral injections of low doses of RAFT(cRGD)4 reduce tumor growth. Furthermore, RAFT(cRGD)4 significantly improves the targeting specificity of subcutaneous tumor masses as well as that of disseminated metastasis after intravenous injection. Thus, RAFT(cRGD)4 is specific, internalized, and perfectly controlled and can carry multiple biological functions on a single, spatially defined backbone, making it a powerful and versatile synthetic vector for drug delivery, molecular imaging, or both.