Mai Sanjoh scite author profile

An efficient endosome-escaping function was integrated into the polyplex of plasmid DNA (pDNA) with poly(L-lysine) (PLys) to improve its gene transfection efficiency through electrostatic coating with charge-conversional polymer (CCP). CCP showed charge-conversional function responding to endosomal pH, leading to the release of pDNA/PLys polyplex into the cytoplasm. The cells took up the intact CCP-integrated ternary polyplex, which exerted appreciably higher transfection efficiency with lower cytotoxicity than pDNA/PLys polyplex against human umbilical vein endothelial cells (HUVECs). This is consistent with the facilitated endosomal escape of the CCP-integrated ternary polyplex compared to the pDNA/PLys polyplex as directly observed with confocal laser-scanning microscopy.

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Dual Environment-Responsive Polyplex Carriers for Enhanced Intracellular Delivery of Plasmid DNA

Sanjoh¹,

Miyata

Christie

et al. 2012

Biomacromolecules

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In this study, we describe a multifunctional, nontoxic delivery vehicle with dual-environment sensitivity to deliver plasmid DNA (pDNA) into the cytoplasm of cells. This delivery vehicle was designed to be destabilized by reduction of disulfide cross-links in the intracellular environment and also to contain pH-sensitive membrane-destabilizing activity in acidic late endosomal/lysosomal compartments to allow escape of pDNA into the cell cytoplasm. Polyion complex formation was used to form ternary polyplexes using ionic polymers containing specific chemistries to achieve functional demands. First, template binary polyplexes were formed by association of cationic poly(l-lysine) containing thiol groups (PLys(PDP)) with pDNA and were subsequently cross-linked by disulfide formation for increased stability. Then, binary cross-linked polyplexes were coated with a pH-sensitive membrane-active polyanion, poly(ethylene glycol)-b-poly(aspartamide(DET-Aco)) (PEG-PAsp(DET-Aco)), to produce ternary cross-linked polyplexes. PEG-PAsp(DET-Aco) comprises two repeating units of aminoethylene in PAsp side chains and primary amines modified with anionic cis-aconitic groups. PEG-PAsp(DET-Aco) degrades at acidic pH to generate the parent PEG-PAsp(DET) polymer, which is active toward late endosomal/lysosomal membranes and thus can assist in the endosomal escape of pDNA following endocytosis. Binary/ternary cross-linked polyplexes remained stable toward counter polyanion exchange with dextran sulfate, but released pDNA following disulfide reduction. Ternary cross-linked polyplexes formed by addition of PEG-PAsp(DET-Aco) resulted in enhanced gene transfection efficiency in cultured cells (Huh-7 and HUVEC) without associated cytotoxicity. The enhanced gene transfection was found to be correlated with improved endosomal escape by observation of intracellular trafficking using confocal laser scanning microscopy. This multifunctional ternary cross-linked polyplex demonstrates the successful design of a gene delivery vehicle utilizing intracellular stimuli, and is a promising platform for further development toward practical use.

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Phenylboronic Acids-based Diagnostic and Therapeutic Applications

et al. 2014

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Mai Sanjoh

Polyplex micelles prepared from ω-cholesteryl PEG-polycation block copolymers for systemic gene delivery

Thiolated 2-methacryloyloxyethyl phosphorylcholine for an antifouling biosensor platform

pDNA/poly(L‐lysine) Polyplexes Functionalized with a pH‐Sensitive Charge‐Conversional Poly(aspartamide) Derivative for Controlled Gene Delivery to Human Umbilical Vein Endothelial Cells

Dual Environment-Responsive Polyplex Carriers for Enhanced Intracellular Delivery of Plasmid DNA

Phenylboronic Acids-based Diagnostic and Therapeutic Applications

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