Literature DB >> 27774139

Self-assembled Multifunctional DNA Nanoflowers for the Circumvention of Multidrug Resistance in Targeted Anticancer Drug Delivery.

Lei Mei1, Guizhi Zhu2, Liping Qiu2, Cuichen Wu3, Huapei Chen1, Hao Liang1, Sena Cansiz3, Yifan Lv1, Xiaobing Zhang1, Weihong Tan2.   

Abstract

Cancer chemotherapy has been impeded by side effects and multidrug resistance (MDR) partially caused by drug efflux from cancer cells, which call for targeted drug delivery systems additionally able to circumvent MDR. Here we report multifunctional DNA nanoflowers (NFs) for targeted drug delivery to both chemosensitive and MDR cancer cells and circumvent MDR in both leukemia and breast cancer cell models. NFs are self-assembled via liquid crystallization of DNA generated by Rolling Circle Replication, during which NFs are incorporated with aptamers for specific cancer cell recognition, fluorophores for bioimaging, and Doxorubicin (Dox)-binding DNA for drug delivery. NF sizes are tunable (down to ~200 nm in diameter), and the densely packed drug-binding motifs and porous intrastructures endow NFs with high drug loading capacity (71.4%, wt/wt). The Dox-loaded NFs (NF-Dox) are stable at physiological pH, yet drug release is facilitated in acidic or basic conditions. NFs deliver Dox into target chemosensitive and MDR cancer cells, preventing drug efflux and enhancing drug retention in MDR cells. Consequently, NF-Dox induces potent cytotoxicity in both target chemosensitive cells and MDR cells, but not nontarget cells, thus concurrently circumventing MDR and reducing side effects. Overall, these NFs are promising to circumvent MDR in targeted cancer therapy.

Entities:  

Keywords:  DNA nanotechnology; aptamer; multidrug resistance; rolling circle replication; self-assembly; targeted cancer therapy

Year:  2015        PMID: 27774139      PMCID: PMC5070671          DOI: 10.1007/s12274-015-0841-8

Source DB:  PubMed          Journal:  Nano Res        ISSN: 1998-0000            Impact factor:   8.897


  42 in total

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Review 5.  Doxorubicin cardiomyopathy.

Authors:  Kanu Chatterjee; Jianqing Zhang; Norman Honbo; Joel S Karliner
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Authors:  Gergely Szakács; Jill K Paterson; Joseph A Ludwig; Catherine Booth-Genthe; Michael M Gottesman
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Journal:  Leukemia       Date:  2009-01-08       Impact factor: 11.528

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5.  pH-responsive DNA nanomicelles for chemo-gene synergetic therapy of anaplastic large cell lymphoma.

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6.  Reversal of multidrug resistance in leukemia cells using a transferrin-modified nanomicelle encapsulating both doxorubicin and psoralen.

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Review 9.  DNA Nanostructure as an Efficient Drug Delivery Platform for Immunotherapy.

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Review 10.  Nanoscale Self-Assembly for Therapeutic Delivery.

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