Amplified Self‐Immolative Release of Small Molecules by Spatial Isolation of Reactive Groups on DNA‐Minimal Architectures

Triggering the release of small molecules in response to unique biomarkers is important for applications in drug delivery and biodetection. Due to low quantities of biomarker, amplifying release is necessary to gain appreciable responses. Nucleic acids have been used for both their biomarker‐recogni...

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Bibliographic Details
Published in:Angewandte Chemie International Edition 2020-07, Vol.59 (31), p.12900-12908
Main Authors: Prinzen, Alexander L., Saliba, Daniel, Hennecker, Christopher, Trinh, Tuan, Mittermaier, Anthony, Sleiman, Hanadi F.
Format: Article
Language:English
Subjects:
Amplification
Biomarkers
Biosensors
Camptothecin - administration & dosage
Camptothecin - chemistry
Catalysis
Deoxyribonucleic acid
DNA
DNA - chemistry
DNA - genetics
Drug delivery
Drug delivery systems
Drug Delivery Systems - methods
Drug Liberation
Fluoresceins - administration & dosage
Fluoresceins - chemistry
Hybridization
Inverted Repeat Sequences
isothermal amplification
molecular devices
nanostructures
Nanotechnology devices
Nucleic Acid Hybridization - methods
Nucleic acids
nucleic-acid-templated catalysis
Prodrugs - administration & dosage
Prodrugs - chemistry
self-assembly
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Summary:Triggering the release of small molecules in response to unique biomarkers is important for applications in drug delivery and biodetection. Due to low quantities of biomarker, amplifying release is necessary to gain appreciable responses. Nucleic acids have been used for both their biomarker‐recognition properties and as stimuli, notably in amplified small‐molecule release by nucleic‐acid‐templated catalysis (NATC). The multiple components and reversibility of NATC, however, make it difficult to apply in vivo. Herein, we report the use of the hybridization chain reaction (HCR) for the amplified, conditional release of small molecules from standalone nanodevices. We couple HCR with a DNA‐templated reaction resulting in the amplified, immolative release of small molecules. We integrate the HCR components into single nanodevices as DNA tracks and spherical nucleic acids, spatially isolating reactive groups until triggering. This could be applied to biosensing, imaging, and drug delivery. The self‐immolative, amplified release of small molecules, in response to a nucleic‐acid signal, from 1D, 2D, and 3D assemblies using the hybridization chain reaction (HCR) is demonstrated. These assemblies effectively separate the reactive groups, enabling the release of small molecules in response to a biomarker of interest, and could find applications in biosensing, imaging, and drug delivery.
ISSN:1433-7851
1521-3773
DOI:10.1002/anie.202001123