Photocrosslinked Bioreducible Polymeric Nanoparticles for Enhanced Systemic siRNA Delivery as Cancer Therapy

Clinical translation of polymer‐based nanocarriers for systemic delivery of RNA has been limited due to poor colloidal stability in the blood stream and intracellular delivery of the RNA to the cytosol. To address these limitations, this study reports a new strategy incorporating photocrosslinking o...

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Published in:Advanced functional materials 2021-04, Vol.31 (17), p.n/a
Main Authors: Karlsson, Johan, Tzeng, Stephany Y., Hemmati, Shayan, Luly, Kathryn M., Choi, Olivia, Rui, Yuan, Wilson, David R., Kozielski, Kristen L., Quiñones‐Hinojosa, Alfredo, Green, Jordan J.
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Language:English
Subjects:
Amines
Biodegradability
bioreducible
Cancer
crosslinking
Escape systems
Materials science
Melanoma
Nanoparticles
Nucleic acids
Ribonucleic acid
RNA
Serum proteins
siRNA
Stability
stimuli-responsive polymers
Surface charge
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cited_by cdi_FETCH-LOGICAL-c5578-567dffc14954aa77d33a9aee519c397b385343e553779f8c2ab9ab501e9c11203
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container_issue 17
container_start_page
container_title Advanced functional materials
container_volume 31
creator Karlsson, Johan
Tzeng, Stephany Y.
Hemmati, Shayan
Luly, Kathryn M.
Choi, Olivia
Rui, Yuan
Wilson, David R.
Kozielski, Kristen L.
Quiñones‐Hinojosa, Alfredo
Green, Jordan J.
description Clinical translation of polymer‐based nanocarriers for systemic delivery of RNA has been limited due to poor colloidal stability in the blood stream and intracellular delivery of the RNA to the cytosol. To address these limitations, this study reports a new strategy incorporating photocrosslinking of bioreducible nanoparticles for improved stability extracellularly and rapid release of RNA intracellularly. In this design, the polymeric nanocarriers contain ester bonds for hydrolytic degradation and disulfide bonds for environmentally triggered small interfering RNA (siRNA) release in the cytosol. These photocrosslinked bioreducible nanoparticles (XbNPs) have a shielded surface charge, reduced adsorption of serum proteins, and enable superior siRNA‐mediated knockdown in both glioma and melanoma cells in high‐serum conditions compared to non‐crosslinked formulations. Mechanistically, XbNPs promote cellular uptake and the presence of secondary and tertiary amines enables efficient endosomal escape. Following systemic administration, XbNPs facilitate targeting of cancer cells and tissue‐mediated siRNA delivery beyond the liver, unlike conventional nanoparticle‐based delivery. These attributes of XbNPs facilitate robust siRNA‐mediated knockdown in vivo in melanoma tumors colonized in the lungs following systemic administration. Thus, biodegradable polymeric nanoparticles, via photocrosslinking, demonstrate extended colloidal stability and efficient delivery of RNA therapeutics under physiological conditions, and thereby potentially advance systemic delivery technologies for nucleic acid‐based therapeutics. Nanocarriers are engineered to realize the potential of RNA therapeutics. This work reports the design of photocrosslinked bioreducible nanoparticles (XbNPs) for stable small interfering RNA (siRNA) encapsulation in high‐serum conditions, shielded surface charge, efficient intracellular trafficking, and triggered cytosolic RNA release. These attributes of XbNPs lead to robust siRNA‐mediated knockdown in cancer cells and potent systemic siRNA delivery to tumors in the lungs.
doi_str_mv 10.1002/adfm.202009768
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subjects Amines
Biodegradability
bioreducible
Cancer
crosslinking
Escape systems
Materials science
Melanoma
Nanoparticles
Nucleic acids
Ribonucleic acid
RNA
Serum proteins
siRNA
Stability
stimuli-responsive polymers
Surface charge
title Photocrosslinked Bioreducible Polymeric Nanoparticles for Enhanced Systemic siRNA Delivery as Cancer Therapy
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