Publication

Targeted Delivery of siRNA-Generating DNA Nanocassettes Using Multifunctional Nanoparticles

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Last modified
  • 02/20/2025
Type of Material
Authors
    Young-Seok Cho, Emory UniversityGee Young Lee, Emory UniversityHari Krishna Sajja, Emory UniversityWeiping Qian, Emory UniversityZehong Cao, Emory UniversityWeiling He, University GuangzhouPrasanthi Karna, Emory UniversityXiaoyuan Chen, National Institute of Biomedical Imaging and BioengineeringHui Mao, Emory UniversityAndrew Wang, Ocean NanotechLily Yang, Emory University
Language
  • English
Date
  • 2013-06-10
Publisher
  • Wiley: 12 months
Publication Version
Copyright Statement
  • © 2013 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim
Final Published Version (URL)
Title of Journal or Parent Work
ISSN
  • 1613-6810
Volume
  • 9
Issue
  • 11
Start Page
  • 1964
End Page
  • 1973
Grant/Funding Information
  • Dr. Young-Seok Cho was supported by a Songeui Scholar Research Grant funded by the Catholic University of Korea.
  • This research project was supported by the following NIH grants: U01CA151810 (Yang and Mao), R01CA154129A01 (Yang), U54 CA119338 (Nie), and P50CA128613 (Shin).
  • Dr. Lily Yang is the Nancy Panoz Chair of Surgery in Cancer Research.
Supplemental Material (URL)
Abstract
  • Molecular therapy using a small interfering RNA (siRNA) has shown promise in the development of novel therapeutics. Various formulations have been used for in vivo delivery of siRNAs. However, the stability of short double-stranded RNA molecules in the blood and efficiency of siRNA delivery into target organs or tissues following systemic administration have been the major issues that limit applications of siRNA in human patients. In this study, multifunctional siRNA delivery nanoparticles are developed that combine imaging capability of nanoparticles with urokinase plasminogen activator receptor-targeted delivery of siRNA expressing DNA nanocassettes. This theranostic nanoparticle platform consists of a nanoparticle conjugated with targeting ligands and double-stranded DNA nanocassettes containing a U6 promoter and a shRNA gene for in vivo siRNA expression. Targeted delivery and gene silencing efficiency of firefly luciferase siRNA nanogenerators are demonstrated in tumor cells and in animal tumor models. Delivery of survivin siRNA expressing nanocassettes into tumor cells induces apoptotic cell death and sensitizes cells to chemotherapy drugs. The ability of expression of siRNAs from multiple nanocassettes conjugated to a single nanoparticle following receptor-mediated internalization should enhance the therapeutic effect of the siRNA-mediated cancer therapy.
Author Notes
Research Categories
  • Health Sciences, General
  • Engineering, Biomedical

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