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Literature DB >> 31867877

Remote Control of Mechanical Forces via Mitochondrial-Targeted Magnetic Nanospinners for Efficient Cancer Treatment.

Mengwei Chen¹, Jiaojiao Wu¹, Peng Ning¹, Jingjing Wang¹, Zuan Ma¹, Liqun Huang¹, Gustavo R Plaza², Yajing Shen¹, Chang Xu¹, Yu Han³, Maciej S Lesniak³, Zhongmin Liu¹, Yu Cheng¹.

Abstract

In cells, mechanical forces play a key role in impacting cell behaviors, including adhesion, differentiation, migration, and death. Herein, a 20 nm mitochondria-targeted zinc-doped iron oxide nanocube is designed as a nanospinner to exert mechanical forces under a rotating magnetic field (RMF) at 15 Hz and 40 mT to fight against cancer. The nanospinners can efficiently target the mitochondria of cancer cells. By means of the RMF, the nanocubes assemble in alignment with the external field and produce a localized mechanical force to impair the cancer cells. Both in vitro and in vivo studies show that the nanospinners can damage the cancer cells and reduce the brain tumor growth rate after the application of the RMF. This nanoplatform provides an effective magnetomechanical approach to treat deep-seated tumors in a spatiotemporal fashion.

Entities: Chemical Disease

Keywords: apoptosis; cancer; magnetic nanocubes; magnetomechanical destruction; mitochondrial

Year: 2019 PMID： 31867877 DOI： 10.1002/smll.201905424

Source DB: PubMed Journal: Small ISSN： 1613-6810 Impact factor: 13.281

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