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Multifunctional magnetic Fe 3O 4 nanoparticles combined with chemotherapy and hyperthermia to overcome multidrug resistance
Abstract
Background
Multidrug resistance in cancer is a major obstacle for clinical therapeutics, and is the reason for 90% of treatment failures. This study investigated the efficiency of novel multifunctional Fe 3O 4 magnetic nanoparticles (Fe 3O 4-MNP) combined with chemotherapy and hyperthermia for overcoming multidrug resistance in an in vivo model of leukemia.
Methods
Nude mice with tumor xenografts were randomly divided into a control group, and the treatment groups were allocated to receive daunorubicin, 5-bromotetrandrine (5-BrTet) and daunorubicin, Fe 3O 4-MNP, and Fe 3O 4-MNP coloaded with daunorubicin and 5-bromotetrandrine (Fe 3O 4-MNP-DNR-5-BrTet), with hyperthermia in an alternating magnetic field. We investigated tumor volume and pathology, as well as P-glycoprotein, Bcl-2, Bax, and caspase-3 protein expression to elucidate the effect of multimodal treatment on overcoming multidrug resistance.
Results
Fe 3O 4-MNP played a role in increasing tumor temperature during hyperthermia. Tumors became significantly smaller, and apoptosis of cells was observed in both the Fe 3O 4-MNP and Fe 3O 4-MNP-DNR-5-BrTet groups, especially in the Fe 3O 4-MNP-DNR-5-BrTet group, while tumor volumes in the other groups had increased after treatment for 12 days. Furthermore, Fe 3O 4-MNP-DNR-5-BrTet with hyperthermia noticeably decreased P-glycoprotein and Bcl-2 expression, and markedly increased Bax and caspase-3 expression.
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