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Polyplexes by Polymerized Dequalinium and Bifunctional Aptamer for Mitochondrial Targeting Drug Release to Overcome Drug Resistance

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journal contribution
posted on 30.07.2020 by Duo Gao, Qiuning Zhu, Jianqing Ruan, Tao Sun, Liang Han
Drug resistance is one of the major obstacles to the success of cancer chemotherapy. Mitochondrial targeting drugs are increasingly thought to be able to eradicate resistant cancer cells. However, immature drug release outside mitochondria and the absence of multifunctional targeting carriers against tumor mitochondria greatly limit the corresponding therapeutic benefits. Here, we synthesized polymerized dequalinium by integrating dequalinium, lysine, and poly­(ethylene glycol) for mitochondrial targeting. The polymerized dequalinium exhibited lower cytotoxicity and stronger gene condensing ability than free dequalinium. We designed AS1411-ATP fusion aptamer to load doxorubicin (DOX) for both tumor targeting and ATP-responsive DOX release. The polyplexes by polymerized dequalinium and bifunctional aptamer can target tumor cells via AS1411 and show improved stability, mitochondrial targeting, DOX release in response to mitochondrial ATP, and enhanced apoptosis-inducing effect on DOX-resistant MCF-7/DOX cells. The present study highlights a promising application of the polyplexes in reversing drug resistance in tumor cells via tumor mitochondrial targeting drug release.

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