N-Alkyl-PEI-functionalized iron oxide nanoclusters for efficient siRNA delivery.
Gang Liu,Jin Xie,Fan Zhang,Zhiyong Wang,Kui Luo,Lei Zhu,Qimeng Quan,Gang Niu,Seulki Lee,Hua Ai,Xiaoyuan Chen +10 more
TLDR
A nonviral nanoparticle gene carrier developed and its efficiency for siRNA delivery and transfection is validated at both in vitro and in vivo levels, demonstrating highly efficient delivery of siRNA and an innocuous toxic profile, making it a potential carrier for gene therapy.Abstract:
Small-interfering RNA (siRNA) is an emerging class of therapeutics, which works by regulating the expression of a specific gene involved in disease progression. Despite the promises, effective transport of siRNA with minimal side effects remains a challenge. In this study, a nonviral nanoparticle gene carrier is developed and its efficiency for siRNA delivery and transfection is validated at both in vitro and in vivo levels. Such a nanocarrier, abbreviated as Alkyl-PEI2k-IO, was constructed with a core of iron oxide nanoparticles (IOs) and a shell of alkylated polyethyleneimine of 2000 Da [corrected] molecualr weight (Alkyl-PEI2k). It is found to be able to bind with siRNA, resulting in well-dispersed nanoparticles with a controlled clustering structure and narrow size distribution. Electrophoresis studies show that the Alkyl-PEI2k-IOs could retard siRNA completely at N:P ratios (i.e., PEI nitrogen to nucleic acid phosphate) above 10, protect siRNA from enzymatic degradation in serum, and release complexed siRNA efficiently in the presence of polyanionic heparin. The knockdown efficiency of the siRNA-loaded nanocarriers is assessed with 4T1 cells stably expressing luciferase (fluc-4T1) and further, with a fluc-4T1 xenograft model. Significant down-regulation of luciferase is observed, and unlike high-molecular-weight analogues, the Alkyl-PEI2k-coated IOs show good biocompatibility. In conclusion, Alkyl-PEI2k-IOs demonstrate highly efficient delivery of siRNA and an innocuous toxic profile, making it a potential carrier for gene therapy.read more
Citations
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Functionalizing nanoparticles with biological molecules: developing chemistries that facilitate nanotechnology.
Kim E. Sapsford,W. Russ Algar,Lorenzo Berti,Kelly Boeneman Gemmill,Brendan J. Casey,Eunkeu Oh,Michael H. Stewart,Igor L. Medintz +7 more
TL;DR: Chemistries that Facilitate Nanotechnology Kim E. Sapsford,† W. Russ Algar, Lorenzo Berti, Kelly Boeneman Gemmill,‡ Brendan J. Casey,† Eunkeu Oh, Michael H. Stewart, and Igor L. Medintz .
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Applications and Potential Toxicity of Magnetic Iron Oxide Nanoparticles
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Superparamagnetic iron oxide nanoparticles as MRI contrast agents for non-invasive stem cell labeling and tracking.
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Mark E. Davis,Jonathan E. Zuckerman,Chung Hang Jonathan Choi,David Seligson,Anthony W. Tolcher,Christopher A. Alabi,Christopher A. Alabi,Yun Yen,Jeremy D. Heidel,Antoni Ribas +9 more
TL;DR: Evidence is provided of inducing an RNAi mechanism of action in a human from the delivered siRNA and the presence of an mRNA fragment that demonstrates that siRNA-mediated mRNA cleavage occurs specifically at the site predicted for anRNAi mechanism from a patient who received the highest dose of the nanoparticles.