MOF-derived novel porous Fe3O4@C nanocomposites as smart nanomedical platforms for combined cancer therapy: magnetic-triggered synergistic hyperthermia and chemotherapy

Abstract

Multifunctional nanomedical platforms have broad prospects in imaging-guided combination therapy in cancer precision medicine. In this work, metal–organic framework (MOF)-derived novel porous Fe₃O₄@C nanocomposites were developed as an intelligent cancer nanomedical platform for combined cancer therapy with MRI-guided magnetic-triggered hyperthermia and chemotherapy functions. The magnetic behavior, porous character and good surface modification endowed this smart nanoplatform with favorable biocompatibility, high-efficiency MRI imaging, magnetic-triggered on-demand DOX release function, and synergistic therapy of magnetic hyperthermia and chemotherapy, which proposed an all-in-one platform for cancer therapy. Additionally, in vivo animal experiments verified the significant suppression of malignant tumor growth with negligible side effects, which were attributed to the consecutive 13 day synergistic therapy of magnetic hyperthermia and chemotherapy in one. To be specific, Fe₃O₄@C-PVP@DOX significantly decreases the volume (2.5 to 0.44 of tumor volume ratio) and weight (0.49 g to 0.10 g) of tumors after magnetic-triggered hyperthermia and chemotherapy treatments. Moreover, no big difference of body weight and associated damage was observed among all major organs. Therefore, owing to its high-efficiency combined therapy of magnetic-triggered hyperthermia and chemotherapy, this smart nanoplatform holds great potential application in the precise treatments of clinical cancer.