Yingxu Shang scite author profile

Using the DNA origami technique, we constructed a DNA nanodevice functionalized with small interfering RNA (siRNA) within its inner cavity and the chemotherapeutic drug doxorubicin (DOX), intercalated in the DNA duplexes. The incorporation of disulfide bonds allows the triggered mechanical opening and release of siRNA in response to intracellular glutathione (GSH) in tumors to knockdown genes key to cancer progression. Combining RNA interference and chemotherapy, the nanodevice induced potent cytotoxicity and tumor growth inhibition, without observable systematic toxicity. Given its autonomous behavior, exceptional designability, potent antitumor activity and marked biocompatibility, this DNA nanodevice represents a promising strategy for precise drug design for cancer therapy.

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A DNA origami-based aptamer nanoarray for potent and reversible anticoagulation in hemodialysis

Zhao

Tian

et al. 2021

Nat Commun

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Effective and safe hemodialysis is essential for patients with acute kidney injury and chronic renal failures. However, the development of effective anticoagulant agents with safe antidotes for use during hemodialysis has proven challenging. Here, we describe DNA origami-based assemblies that enable the inhibition of thrombin activity and thrombus formation. Two different thrombin-binding aptamers decorated DNA origami initiates protein recognition and inhibition, exhibiting enhanced anticoagulation in human plasma, fresh whole blood and a murine model. In a dialyzer-containing extracorporeal circuit that mimicked clinical hemodialysis, the origami-based aptamer nanoarray effectively prevented thrombosis formation. Oligonucleotides containing sequences complementary to the thrombin-binding aptamers can efficiently neutralize the anticoagulant effects. The nanoarray is safe and immunologically inert in healthy mice, eliciting no detectable changes in liver and kidney functions or serum cytokine concentration. This DNA origami-based nanoagent represents a promising anticoagulant platform for the hemodialysis treatment of renal diseases.

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Site‐Specific Synthesis of Silica Nanostructures on DNA Origami Templates

Shang

Liu

et al. 2020

Advanced Materials

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Cofactor-free oxidase-mimetic nanomaterials from self-assembled histidine-rich peptides

et al. 2020

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Efficient Intracellular Delivery of RNase A Using DNA Origami Carriers

Zhao

Duan

Liu

et al. 2019

ACS Appl. Mater. Interfaces

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Delivery of proteins to carry out desired biological functions is a direct approach for disease treatment. However, protein therapy is still facing challenges due to low delivery efficiency, poor targeting during trafficking, insufficient therapeutic efficacy, and possible toxicity induced by carriers. Here, we present a novel delivery platform based on DNA origami nanostructure that enables tumor cell transportation of active proteins for cancer therapy. In our design, cytotoxic protein ribonuclease (RNase) A molecules are organized on the rectangular DNA origami nanosheets, which work as nanovehicles to deliver RNase A molecules into the cytoplasm and execute their cell-killing function inside the tumor cells. Cancer cell-targeting aptamers are also integrated onto the DNA origami-based nanoplatform to enhance its targeting effect. This DNA origamiprotein coassembling strategy can be further developed to transport other functional proteins and therapeutic components simultaneously for synergistic effects and be adapted for integrated diagnostics and therapeutics.

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Precise Organization of Metal and Metal Oxide Nanoclusters into Arbitrary Patterns on DNA Origami

Shang

et al. 2019

J. Am. Chem. Soc.

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Yingxu Shang

A DNA nanodevice-based vaccine for cancer immunotherapy

Sparse deconvolution improves the resolution of live-cell super-resolution fluorescence microscopy

A Tubular DNA Nanodevice as a siRNA/Chemo‐Drug Co‐delivery Vehicle for Combined Cancer Therapy

A DNA origami-based aptamer nanoarray for potent and reversible anticoagulation in hemodialysis

Site‐Specific Synthesis of Silica Nanostructures on DNA Origami Templates

Cofactor-free oxidase-mimetic nanomaterials from self-assembled histidine-rich peptides

Efficient Intracellular Delivery of RNase A Using DNA Origami Carriers

Precise Organization of Metal and Metal Oxide Nanoclusters into Arbitrary Patterns on DNA Origami

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