BACKGROUND: Iron oxide nanoparticles (IONs) have been increasingly utilized in a wide spectrum of biomedical applications. Surface coatings of IONs can bestow a number of exceptional properties, including enhanced stability of IONs, increased loading of drugs or their controlled release. METHODS: Using two-step sonochemical protocol, IONs were surface-coated with polyoxyethylene stearate, polyvinylpyrrolidone or chitosan for a loading of two distinct topo II poisons (doxorubicin and ellipticine). The cytotoxic behavior was tested in vitro against breast cancer (MDA-MB-231) and healthy epithelial cells (HEK-293 and HBL-100). In addition, biocompatibility studies (hemotoxicity, protein corona formation, binding of third complement component) were performed. RESULTS: Notably, despite surface-coated IONs exhibited only negligible cytotoxicity, upon tethering with topo II poisons, synergistic or additional enhancement of cytotoxicity was found in MDA-MB-231 cells. Pronounced anti-migratory activity, DNA fragmentation, decrease in expression of procaspase-3 and enhancement of p53 expression were further identified upon exposure to surface-coated IONs with tethered doxorubicin and ellipticine. Moreover, surface-coated IONs nanoformulations of topo II poisons exhibited exceptional stability in human plasma with no protein corona and complement 3 binding, and only a mild induction of hemolysis in human red blood cells. CONCLUSION: The results imply a high potential of an efficient ultrasound-mediated surface functionalization of IONs as delivery vehicles to improve therapeutic efficiency of topo II poisons.
BACKGROUND: Iron oxide nanoparticles (IONs) have been increasingly utilized in a wide spectrum of biomedical applications. Surface coatings of IONs can bestow a number of exceptional properties, including enhanced stability of IONs, increased loading of drugs or their controlled release. METHODS: Using two-step sonochemical protocol, IONs were surface-coated with polyoxyethylene stearate, polyvinylpyrrolidone or chitosan for a loading of two distinct topo II poisons (doxorubicin and ellipticine). The cytotoxic behavior was tested in vitro against breast cancer (MDA-MB-231) and healthy epithelial cells (HEK-293 and HBL-100). In addition, biocompatibility studies (hemotoxicity, protein corona formation, binding of third complement component) were performed. RESULTS: Notably, despite surface-coated IONs exhibited only negligible cytotoxicity, upon tethering with topo II poisons, synergistic or additional enhancement of cytotoxicity was found in MDA-MB-231 cells. Pronounced anti-migratory activity, DNA fragmentation, decrease in expression of procaspase-3 and enhancement of p53 expression were further identified upon exposure to surface-coated IONs with tethered doxorubicin and ellipticine. Moreover, surface-coated IONs nanoformulations of topo II poisons exhibited exceptional stability in human plasma with no protein corona and complement 3 binding, and only a mild induction of hemolysis in human red blood cells. CONCLUSION: The results imply a high potential of an efficient ultrasound-mediated surface functionalization of IONs as delivery vehicles to improve therapeutic efficiency of topo II poisons.
Authors: Anita R Mistry; Carolyn A Felix; Ryan J Whitmarsh; Annabel Mason; Andreas Reiter; Bruno Cassinat; Anne Parry; Christoph Walz; Joseph L Wiemels; Mark R Segal; Lionel Adès; Ian A Blair; Neil Osheroff; Andrew J Peniket; Marina Lafage-Pochitaloff; Nicholas C P Cross; Christine Chomienne; Ellen Solomon; Pierre Fenaux; David Grimwade Journal: N Engl J Med Date: 2005-04-14 Impact factor: 91.245
Authors: Marina A Dobrovolskaia; Jeffrey D Clogston; Barry W Neun; Jennifer B Hall; Anil K Patri; Scott E McNeil Journal: Nano Lett Date: 2008-07-08 Impact factor: 11.189
Authors: Hana Stepankova; Hana Michalkova; Zbynek Splichal; Lukas Richtera; Pavel Svec; Tomas Vaculovic; Jan Pribyl; Martin Kormunda; Simona Rex; Vojtech Adam; Zbynek Heger Journal: Bioact Mater Date: 2022-06-25