John Chu Chia Hsu scite author profile

We set out to design, synthesize and optimize a DNA-minimal cage capable of encapsulating oligonucleotide drugs to facilitate their delivery. Through rational design and optimization using in vitro assays, we have assembled the first DNA "nanosuitcase" that can encapsulate a siRNA construct and release it upon recognition of an oligonucleotide trigger. The latter may be a messenger RNA (mRNA) or a microRNA (miRNA) which offers potential for dual or synergistic therapy. This construct assembles in near 100% yield, releases its cargo on demand and can sustain biological conditions. Moreover, we find that the DNA scaffold is able to protect its cargo against site-specific cleavage and nuclease degradation. Release of the cargo is performed with fixed cells using a FRET-enabled construct imaged by confocal microscopy and reveals that the DNA cage remains responsive at the molecular level in a complex cellular environment. We foresee this construct will be able to address challenges in drug delivery, more specifically in non-toxic delivery and targeted release.

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Precision spherical nucleic acids for delivery of anticancer drugs

Bousmail

et al. 2017

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Single-stranded templates as railroad tracks for hierarchical assembly of DNA origami

et al. 2018

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DNA origami is one of the most effective tools for bottom-up construction of novel objects and devices at the nanometer-scale. However, many applications require larger structures than can be obtained with the conventional single-stranded scaffold, typically 7249 nucleotides. Here, we address this limitation by developing custom-made single-stranded scaffolds that bind pre-assembled origami tiles and induce their one-dimensional organization in high yields. Our synthetic method allows the conversion of multiple repetitive and unique sequences into correctly assembled, large backbones, and to finely tune the position and frequency of each building block. Granted with these regions, three and five origami tiles were successfully arranged in 1-D with the aid of one or two scaffolds, forming a nano-"railroad track". This new method increases length scale in DNA origami without increasing cost and complexity, and is anticipated to increase the yield of other approaches aiming to assemble large origami structures.

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John Chu Chia Hsu

Optimized DNA “Nanosuitcases” for Encapsulation and Conditional Release of siRNA

Precision spherical nucleic acids for delivery of anticancer drugs

Single-stranded templates as railroad tracks for hierarchical assembly of DNA origami

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