Affiliation:
1. Department of Chemistry McGill University 801 Sherbrooke St West H3A 0B8 Montreal Québec Canada
Abstract
AbstractNucleic acid therapeutics (NATs), such as mRNA, small interfering RNA or antisense oligonucleotides are extremely efficient tools to modulate gene expression and tackle otherwise undruggable diseases. Spherical nucleic acids (SNAs) can efficiently deliver small NATs to cells while protecting their payload from nucleases, and have improved biodistribution and muted immune activation. Self‐assembled SNAs have emerged as nanostructures made from a single DNA‐polymer conjugate with similar favorable properties as well as small molecule encapsulation. However, because they maintain their structure by non‐covalent interactions, they might suffer from disassembly in biologically relevant conditions, especially with regard to their interaction with serum proteins. Here, we report a systematic study of the factors that govern the fate of self‐assembled SNAs. Varying the core chemistry and using stimuli‐responsive disulfide crosslinking, we show that extracellular stability upon binding with serum proteins is important for recognition by membrane receptors, triggering cellular uptake. At the same time, intracellular dissociation is required for efficient therapeutic release. Disulfide‐crosslinked SNAs combine these two properties and result in efficient and non‐toxic unaided gene silencing therapeutics. We anticipate these investigations will help the translation of promising self‐assembled structures towards in vivo gene silencing applications.
Funder
Natural Sciences and Engineering Research Council of Canada
Canada Foundation for Innovation
Fonds de recherche du Québec – Nature et technologies
Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung
Subject
General Chemistry,Catalysis
Cited by
2 articles.
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