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Shell-detachable micelles based on disulfide-linked block copolymer as potential carrier for intracellular drug delivery.

Shell-detachable micelles based on disulfide-linked block copolymer as potential carrier for... Aiming at development of a micellar nanoparticle system for intracellular drug release triggered by glutathione in tumor cells, a disulfide-linked biodegradable diblock copolymer of poly(epsilon-caprolactone) and poly(ethyl ethylene phosphate) was synthesized. It formed biocompatible micelles loaded with doxorubicin in aqueous solution but detached the shell material under glutathione stimulus, resulting in rapid drug release with destruction of micellar structure. These glutathione-sensitive micelles also rapidly released the drug molecules intracellularly and led to enhanced growth inhibition to A549 tumor cells, suggesting that this nanoparticle system may have potential for improving drug delivery efficacy. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Bioconjugate Chemistry Pubmed

Shell-detachable micelles based on disulfide-linked block copolymer as potential carrier for intracellular drug delivery.

Tang, Ling-Yan; Wang, Yu-Cai; Li, Yang; Du, Jin-Zhi; Wang, Jun
Bioconjugate Chemistry , Volume 20 (6): -1085 – Sep 1, 2009
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Shell-detachable micelles based on disulfide-linked block copolymer as potential carrier for intracellular drug delivery.


Abstract

Aiming at development of a micellar nanoparticle system for intracellular drug release triggered by glutathione in tumor cells, a disulfide-linked biodegradable diblock copolymer of poly(epsilon-caprolactone) and poly(ethyl ethylene phosphate) was synthesized. It formed biocompatible micelles loaded with doxorubicin in aqueous solution but detached the shell material under glutathione stimulus, resulting in rapid drug release with destruction of micellar structure. These glutathione-sensitive micelles also rapidly released the drug molecules intracellularly and led to enhanced growth inhibition to A549 tumor cells, suggesting that this nanoparticle system may have potential for improving drug delivery efficacy.

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ISSN
1043-1802
DOI
10.1021/bc900144m
pmid
19438224

Abstract

Aiming at development of a micellar nanoparticle system for intracellular drug release triggered by glutathione in tumor cells, a disulfide-linked biodegradable diblock copolymer of poly(epsilon-caprolactone) and poly(ethyl ethylene phosphate) was synthesized. It formed biocompatible micelles loaded with doxorubicin in aqueous solution but detached the shell material under glutathione stimulus, resulting in rapid drug release with destruction of micellar structure. These glutathione-sensitive micelles also rapidly released the drug molecules intracellularly and led to enhanced growth inhibition to A549 tumor cells, suggesting that this nanoparticle system may have potential for improving drug delivery efficacy.

Journal

Bioconjugate ChemistryPubmed

Published: Sep 1, 2009

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