The
combination of magnetic hyperthermia and chemotherapy within
a nanosystem is thought to be a promising approach for cancer therapies.
However, the nonspecific accumulation and fast clearance of magnetic
nanoparticles in the physiological environment limited their further
biomedical applications. Herein, we report a highly selective theranostic
nanocomplex, ZIPP-Apt:DOX/siHSPs, built with superparamagnetic zinc-doped
iron oxide nano-octahedral core, cationic PAMAM dendrimer, and functional
surface modifications such as PEG, AS1411 aptamer, and fluorescent
tags (FITC or Cy5.5), together with the loading of hydrophobic anticancer
drug doxorubicin (DOX) and HSP70/HSP90 siRNAs. Our results demonstrate
that the cellular uptake and the tumor-specific accumulation of ZIPP-Apt:DOX/siHSPs
were significantly increased due to the AS1411-nucleolin affinity
and further confirmed that the simultaneous depletion of HSP70 and
HSP90 sensitized magnetic hyperthermia and chemotherapy-induced cell
death both in vitro and in vivo.
Altogether, our study provides a theranostic nanoplatform for aptamer-targeted,
NIR/MR dual-modality imaging guided, and HSP70/HSP90 silencing sensitized
magnetochemotherapy, which has the potential to advance versatile
magnetic nanosystems toward clinical applications.
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