Journal
CARBOHYDRATE POLYMERS
Volume 143, Issue -, Pages 25-34Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.carbpol.2016.01.010
Keywords
Chitosan; PEGylated chitosan; siRNA-delivery; Nanoplex functionality; Gene silencing
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Funding
- Natural and Medical Sciences Institute (NMI) at the University of Tubingen
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Polyethylene glycol (PEG) is a widely used modification for drug delivery systems. It reduces undesired interaction with biological components, aggregation of complexes and serves as a hydrophilic linker of ligands for targeted drug delivery. However, PEGylation can also lead to undesired changes in physicochemical characteristics of chitosan/siRNA nanoplexes and hamper gene silencing. To address this conflicting issue, PEG-chitosan copolymers were synthesized with stepwise increasing degrees of PEG substitution (1.5% to 8.0%). Subsequently formed PEG-chitosan/siRNA nanoplexes were characterized physicochemically and biologically. The results showed that small ratios of chitosan PEGylation did not affect nanoplex stability and density. However, higher PEGylation ratios reduced nanoplex size and charge, as well as cell uptake and final siRNA knockdown efficiency. Therefore, we recommend fine-tuning of PEGylation ratios to generate PEG-chitosan/siRNA delivery systems with maximum bioactivity. The degree of PEGylation for chitosan/siRNA nanoplexes should be kept low in order to maintain optimal nanoplex efficiency. (C) 2016 Elsevier Ltd. All rights reserved.
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