Doxorubicin and Fe3O4 loaded albumin nanoparticles with folic acid modified dextran surface for tumor diagnosis and therapy
Abstract
In this study, multifunctional bovine serum albumin (BSA) nanoparticles were fabricated via a green approach with high efficiency. Folic acid (FA) was conjugated to dextran (DEX) through an esterification reaction, and BSA–DEX–FA conjugate was produced by Maillard reaction. Superparamagnetic Fe3O4 nanocrystals with a size about 10 nm were loaded into BSA–DEX–FA nanoparticles through a heat treatment which induces BSA gelation. Doxorubicin (DOX) was loaded into Fe3O4/BSA–DEX–FA nanoparticles by a diffusion process. Fe3O4/BSA–DEX–FA and DOX/Fe3O4/BSA–DEX–FA nanoparticles have a size of about 100 nm, good stability, superior transversal R2 relaxation rate of larger than 360 (mM)−1 s−1, as well as FA receptor-targeted and magnetically guided functions. Fe3O4/BSA–DEX–FA nanoparticles have excellent biocompatibility. By application of an external magnetic field close to tumor, DOX/Fe3O4/BSA–DEX–FA nanoparticles can effectively enhance the tumor inhibition rate and prolong the life time of H22 tumor-bearing mice, and Fe3O4/BSA–DEX–FA nanoparticles can significantly improve the tumor MRI of KB tumor-bearing mice. This study demonstrates that Fe3O4/BSA–DEX–FA and DOX/Fe3O4/BSA–DEX–FA nanoparticles are suitable systems for tumor diagnosis and therapy.