Sanchez, Claire El Hajj Diab, Darine Connord, Vincent Clerc, Pascal Meunier, Etienne Pipy, Bernard Payré, Bruno Tan, Reasmey P. Gougeon, Michel Carrey, Julian Gigoux, Véronique Fourmy, Daniel Targeting a G‑Protein-Coupled Receptor Overexpressed in Endocrine Tumors by Magnetic Nanoparticles To Induce Cell Death Nanotherapy using targeted magnetic nanoparticles grafted with peptidic ligands of receptors overexpressed in cancers is a promising therapeutic strategy. However, nanoconjugation of peptides can dramatically affect their properties with respect to receptor recognition, mechanism of internalization, intracellular trafficking, and fate. Furthermore, investigations are needed to better understand the mechanism whereby application of an alternating magnetic field to cells containing targeted nanoparticles induces cell death. Here, we designed a nanoplatform (termed MG-IONP-DY647) composed of an iron oxide nanocrystal decorated with a ligand of a G-protein coupled receptor, the cholecystokinin-2 receptor (CCK2R) that is overexpressed in several malignant cancers. MG-IONP-DY647 did not stimulate inflammasome of Raw 264.7 macrophages. They recognized cells expressing CCK2R with a high specificity, subsequently internalized <i>via</i> a mechanism involving recruitment of β-arrestins, clathrin-coated pits, and dynamin and were directed to lysosomes. Binding and internalization of MG-IONP-DY647 were dependent on the density of the ligand at the nanoparticle surface and were slowed down relative to free ligand. Trafficking of CCK2R internalized with the nanoparticles was slightly modified relative to CCK2R internalized in response to free ligand. Application of an alternating magnetic field to cells containing MG-IONP-DY647 induced apoptosis and cell death through a lysosomal death pathway, demonstrating that cell death is triggered even though nanoparticles of low thermal power are internalized in minute amounts by the cells. Together with pioneer findings using iron oxide nanoparticles targeting tumoral cells expressing epidermal growth factor receptor, these data represent a solid basis for future studies aiming at establishing the proof-of-concept of nanotherapy of cancers using ligand-grafted magnetic nanoparticles specifically internalized <i>via</i> cell surface receptors. ligand;iron oxide nanocrystal;epidermal growth factor receptor;lysosomal death pathway;cell surface receptors;iron oxide nanoparticles;Raw 264.7 macrophages;CCK 2R;cell death;Induce Cell DeathNanotherapy 2014-02-25
    https://acs.figshare.com/articles/journal_contribution/Targeting_a_G_Protein_Coupled_Receptor_Overexpressed_in_Endocrine_Tumors_by_Magnetic_Nanoparticles_To_Induce_Cell_Death/2320501
10.1021/nn404954s.s001