Shigeki Sasaki scite author profile

An oligodeoxynucleotide (ODN) conjugated to poly(ethylene glycol) (PEG) through a pH-responsive ester linkage (PEG-ODN conjugate) was successfully synthesized by the Michael reaction of 3'-thiol-modified ODN with a heterobifunctional PEG bearing an acetal group at the alpha-end and an acrylate group at the omega-end (acetal-PEG-acrylate), aimed at the development of a novel ODN delivery system. The prepared PEG-ODN conjugate and linear-poy(ethyleneimine) (L-PEI) spontaneously associated to form a polyion complex (PIC) micelle whose diameter and polydispersity index micro(2)/Gamma(2)) were 102.5 nm and 0.096 as determined by DLS measurements, respectively. Both the PEG-ODN conjugate and PIC micelle showed cleavage of the ester linkage at the endosomal pH (=5.5), suggesting that the PIC micelle is anticipated to release the ODN in the intracellular compartment. Furthermore, the PEG-ODN conjugate in the PIC micelle was stable against deoxyribonuclase (DNase I) digestion and has no interaction with the serum component because of the steric stabilization of the highly dense PEG corona surrounding the PIC core. These characteristics of the PIC micelles entrapping the PEG-ODN conjugate are promising for their utility as a novel ODN delivery system.

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Smart Polyion Complex Micelles for Targeted Intracellular Delivery of PEGylated Antisense Oligonucleotides Containing Acid‐Labile Linkages

Oishi

et al. 2005

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A novel pH-sensitive and targetable antisense ODN delivery system based on multimolecular assembly into polyion complex (PIC) micelles of poly(L-lysine) (PLL) and a lactosylated poly(ethylene glycol)-antisense ODN conjugate (Lac-PEG-ODN) containing an acid-labile linkage (beta-propionate) between the PEG and ODN segments has been developed. The PIC micelles thus prepared had clustered lactose moieties on their peripheries and achieved a significant antisense effect against luciferase gene expression in HuH-7 cells (hepatoma cells), far more efficiently than that produced by the nonmicelle systems (ODN and Lac-PEG-ODN) alone, as well as by the lactose-free PIC micelle. In line with this pronounced antisense effect, the lactosylated PIC micelles showed better uptake than the lactose-free PIC micelles into HuH-7 cells; this suggested the involvement of an asialoglycoprotein (ASGP) receptor-mediated endocytosis process. Furthermore, a significant decrease in the antisense effect (27 % inhibition) was observed for a lactosylated PIC micelle without an acid-labile linkage (thiomaleimide linkage); this suggested the release of the active (free) antisense ODN molecules into the cellular interior in response to the pH decrease in the endosomal compartment is a key process in the antisense effect. Use of branched poly(ethylenimine) (B-PEI) instead of the PLL for PIC micellization led to a substantial decrease in the antisense effect, probably due to the buffer effect of the B-PEI in the endosome compartment, preventing the cleavage of the acid-labile linkage in the conjugate. The approach reported here is expected to be useful for the construction of smart intracellular delivery systems for antisense ODNs with therapeutic value.

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Supramolecular Assemblies for the Cytoplasmic Delivery of Antisense Oligodeoxynucleotide: Polyion Complex (PIC) Micelles Based on Poly(ethylene glycol)-SS-Oligodeoxynucleotide Conjugate

et al. 2005

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A novel cytoplasmic delivery system of antisense oligodeoxynucleotide (asODN) was developed by assembling a PEG-asODN conjugate with disulfide linkage (smart linkage) (PEG-SS-asODN) into polyion complex (PIC) micelles through the complexation with branched poly(ethylenimine) (B-PEI). The PIC micelle thus prepared showed a significant antisense effect against luciferase gene expression in HuH-7 cells, far more efficient than nonmicelle systems (asODN and PEG-SS-asODN in free form) and PIC micelle encapsulating the conjugate without the disulfide linkage. Use of poly(l-lysine) (PLL) instead of the B-PEI for PIC micellization led to a substantial decrease in the antisense effect. These results indicate that the PIC micelles formulated from PEG-SS-asODN conjugate and B-PEI is successfully transported from the endosomal compartment into the cytoplasm by the buffering effect of the B-PEI, releasing hundreds of active asODN molecules via cleavage of the disulfide linkage into the cellular interior, responding to a high glutathione concentration in the cytoplasmic compartment. Furthermore, the type of smart linkage (glutathione-sensitive SS linkage vs pH-sensitive linkage) in the conjugates substantially affected the antisense effect of the PIC micelles, depending on the nature of the counter polycation (B-PEI vs PLL).

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Highly Efficient and Selective Cross-Linking to Cytidine Based on a New Strategy for Auto-Activation within a Duplex

et al. 1999

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Shigeki Sasaki

pH-Responsive Oligodeoxynucleotide (ODN)−Poly(Ethylene Glycol) Conjugate through Acid-Labile β-Thiopropionate Linkage: Preparation and Polyion Complex Micelle Formation

Smart Polyion Complex Micelles for Targeted Intracellular Delivery of PEGylated Antisense Oligonucleotides Containing Acid‐Labile Linkages

Supramolecular Assemblies for the Cytoplasmic Delivery of Antisense Oligodeoxynucleotide: Polyion Complex (PIC) Micelles Based on Poly(ethylene glycol)-SS-Oligodeoxynucleotide Conjugate

Highly Efficient and Selective Cross-Linking to Cytidine Based on a New Strategy for Auto-Activation within a Duplex

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