Biophysical Characterization of Hyper-branched Polyethylenimine-graft-polycaprolactone-block-mono-methoxyl-poly(ethylene Glycol) Copolymers (hy-PEI-PCL-mPEG) for SiRNA Delivery

Overview

Journal J Control Release

Specialty Pharmacology

Date 2011 May 10

PMID 21549166

Citations 15

Authors

Yu Liu

Olga Samsonova

Brian Sproat

Olivia Merkel

Thomas Kissel

Affiliations

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Abstract

A library of mono-methoxyl-poly(ethylene glycol)-block-poly(ε-caprolactone) (mPEG-PCL) modified hyperbranched PEI copolymers (hy-PEI-PCL-mPEG) was synthesized to establish structure function relationships for siRNA delivery. These amphiphilic block-copolymers were thought to provide improved colloidal stability and endosomal escape of polyplexes containing siRNA. The influence of the mPEG chain length, PCL segment length, hy-PEI molecular weight and the graft density on their biophysical properties was investigated. In particular, buffer capacity, complex formation constants, gene condensation, polyplex stability, polyplex size and zeta-potential were measured. It was found that longer mPEG chains, longer PCL segments and higher graft density beneficially affected the stability and formation of polyplexes and reduced the zeta-potential of siRNA polyplexes. Significant siRNA mediated knockdown was observed for hy-PEI25k-(PCL900-mPEG2k)(1) at N/P 20 and 30, implying that the PCL hydrophobic segment played a very important role in siRNA transfection. These gene delivery systems merit further investigation under in vivo conditions.

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