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Endogenous miRNA-Activated DNA Nanomachine for Intracellular miRNA Imaging and Gene Silencing

Lie Li, Yazhou Ren, Xiaohong Wen, Qiuping Guo, Jie Wang, Suping Li, Mei Yang, Kemin Wang

2021Analytical Chemistry49 citationsDOI

Abstract

The development of multifunctional nanoplatforms that integrate both diagnostic and therapeutic functions has always been extremely desirable and challenging in the cancer combat. Here, we report an endogenous miRNA-activated DNA nanomachine (EMDN) in living cells for concurrent sensitive miRNA imaging and activatable gene silencing. EMDN is constructed by interval hybridization of two functional DNA monomers (R/HP and F) to a DNA nanowire generated by hybridization chain reaction. After the target cell-specific transportation of EMDN, intracellular let-7a miRNA initiates the DNA nanomachine by DNA strand displacement cascades, resulting in an amplified fluorescence resonance energy-transfer signal and the release of many free HP sequences. The restoration of HP hairpin structures further activates the split-DNAzyme to identify and cleave the EGR-1 mRNA to realize gene silencing therapy. The proposed EMDN shows efficient cell internalization, good biological stability, rapid reaction kinetics, and the ability to avoid false-positive signals, thus ensuring reliable miRNA imaging in living cells. Meanwhile, the controlled activation of the split-DNAzyme activity regulated by the intracellular specific miRNA may be promising in the precise treatment of cancer. Collectively, this strategy provides a valuable nanoplatform for early clinical diagnosis and activatable gene therapy of tumors.

Topics & Concepts

Gene silencingChemistrymicroRNADeoxyribozymeDNAIntracellularFörster resonance energy transferInternalizationVectors in gene therapyEndogenyGeneCell biologyOligonucleotideComputational biologyMolecular biologyCellBiochemistryBiologyFluorescenceRecombinant DNAViral vectorPhysicsQuantum mechanicsAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene DeliveryMicroRNA in disease regulation
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