Inulin-based polymer coated SPIONs as potential drug delivery systems for targeted cancer therapy

[Display omitted] •A highly biocompatible PEGylated squalene-grafted-inulin copolymer was synthesized.•Polymer coated SPIONs were obtained by spontaneous self-assembling onto magnetite surface.•Doxorubicin-loaded nanoparticles showed good magnetic targeting and in vitro anticancer activity. This pap...

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Veröffentlicht in:European journal of pharmaceutics and biopharmaceutics 2014-11, Vol.88 (3), p.695-705
Hauptverfasser: Scialabba, C., Licciardi, M., Mauro, N., Rocco, F., Ceruti, M., Giammona, G.
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Sprache:eng
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Zusammenfassung:[Display omitted] •A highly biocompatible PEGylated squalene-grafted-inulin copolymer was synthesized.•Polymer coated SPIONs were obtained by spontaneous self-assembling onto magnetite surface.•Doxorubicin-loaded nanoparticles showed good magnetic targeting and in vitro anticancer activity. This paper deal with the synthesis and characterization of PEGylated squalene-grafted-inulin amphiphile capable of self-assembling and self-organizing into nanocarriers once placed in aqueous media. It was exploited as coating agent for obtaining doxorubicin loaded superparamagnetic iron oxide nanoparticles (SPIONs) endowed with stealth like behavior and excellent physicochemical stability. Inulin was firstly modified in the side chain with primary amine groups, followed in turn by conjugation with squalenoyl derivatives through common amidic coupling agents and PEGylation by imine linkage. Polymer coated SPIONs were so obtained by spontaneous self-assembling of inulin copolymer onto magnetite surface involving hydrophobic–hydrophobic interactions between the metallic core and the squalene moieties. The system was characterized in terms of hydrodynamic radius, zeta potential, shape and drug loading capacity. On the whole, the stealth-like shell stabilized the suspension in aqueous media, though allowing the release of the doxorubicin loaded in therapeutic range. The cytotoxicity profile on cancer (HCT116) cell line and in vitro drug uptake were evaluated both with and without an external magnetic field used as targeting agent and uptake promoter, displaying that magnetic targeting implies advantageous therapeutic effects, that is amplified drug uptake and increased anticancer activity throughout the tumor mass.
ISSN:0939-6411
1873-3441
DOI:10.1016/j.ejpb.2014.09.008