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Engineered Ferritin Nanoparticles for the Bioluminescence Tracking of Nanodrug Delivery in Cancer

Michela Bellini, Benedetta Riva, Veronica Tinelli, Maria Antonietta Rizzuto, Lucia Salvioni, Miriam Colombo, Francesca Mingozzi, Alberto Visioli, Laura Marongiu, Gianni Frascotti, Michael S. Christodoulou, Daniele Passarella, Davide Prosperi, Luisa Fiandra

2020Small50 citationsDOI

Abstract

The identification of a highly sensitive method to check the delivery of administered nanodrugs into the tumor cells is a crucial step of preclinical studies aimed to develop new nanoformulated cures, since it allows the real therapeutic potential of these devices to be forecast. In the present work, the ability of an H-ferritin (HFn) nanocage, already investigated as a powerful tool for cancer therapy thanks to its ability to actively interact with the transferrin receptor 1, to act as an efficient probe for the monitoring of nanodrug delivery to tumors is demonstrated. The final formulation is a bioluminescent nanoparticle, where the luciferin probe is conjugated on nanoparticle surface by means of a disulfide containing linker (Luc-linker@HFn) which is subjected to glutathione-induced cyclization in tumor cell cytoplasm. The prolonged imaging of luciferase+ tumor models, demonstrated by an in vitro and an in vivo approach, associated with the prolonged release of luciferin into cancer cells by disulfide bridge reduction, clearly indicates the high efficiency of Luc-linker@HFn for drug delivery to the tumor tissues.

Topics & Concepts

NanocagesLinkerDrug deliveryIn vivoCancer cellFerritinNanoparticleBioluminescenceBioluminescence imagingChemistryNanotechnologyBiophysicsMaterials scienceLuciferaseBiochemistryCancerBiologyTransfectionComputer scienceOperating systemGeneticsBiotechnologyCatalysisGeneAdvanced biosensing and bioanalysis techniquesNanoparticle-Based Drug DeliveryIron Metabolism and Disorders
Engineered Ferritin Nanoparticles for the Bioluminescence Tracking of Nanodrug Delivery in Cancer | Litcius