聚乙二醇稳定的具有正电荷聚酯核的胶束系统，用于快速 pH 响应药物释放。

PEG-stabilized micellar system with positively charged polyester core for fast pH-responsive drug release.

机构信息

Key Laboratory of Biomedical Polymers, The Ministry of Education, Department of Chemistry, Wuhan University, Wuhan, 430072, China.

出版信息

Pharm Res. 2012 Jun;29(6):1582-94. doi: 10.1007/s11095-012-0669-9. Epub 2012 Jan 21.

DOI:10.1007/s11095-012-0669-9

PMID:22271048

Abstract

PURPOSE

To design functional drug carriers for fast pH-responsive drug release.

METHODS

Functional diblock terpolymers of monomethoxy poly(ethylene glycol)-block- copoly(6,14-dimethyl-1,3,9,11-tetraoxa-6,14-diaza-cyclohexadecane-2,10-dione-co-ε-caprolactone) [mPEG-b-poly(ADMC-co-CL)] were fabricated via biosynthetic pathway. The self-assembled nanosphere and drug-loaded micelles of the copolymers were further prepared by dialysis method. The pH-tunable morphology variation and drug release pattern were observed at different pH.

RESULTS

A collection of three PEGylated terpolymers with varied compositions in poly(ADMC-co-CL) block was designed with high cell-biocompatibility. The copolymers could readily self-assemble into nanoscale micelles (~ 100 nm) in aqueous medium and exhibit high stability over 80-h incubation in different mediums including deionized water, neutral NaCl solution, and heparin sodium solution. Due to the protonation-deprotonation of tertiary amine groups in ADMC units, acid-induced structural deformation of micelles was disclosed in terms of the variation in CAC value and hydrodynamic size at different pH. Drug loading efficiency was comparable to that of reported PEG-polyester micelles with specifically designed structures purposed for drug-loading improvement. Remarkably accelerated drug release triggered by acidity was distinctly detected for ibuprofen-loaded mPEG-b-poly(ADMC-co-CL) micelle system, suggesting a fast pH-responsive characteristic.

CONCLUSION

Functional PEG-stabilized micellar carriers with positively charged polyester core were successfully developed for fast pH-responsive drug release.

摘要

目的

设计用于快速 pH 响应药物释放的功能性药物载体。

方法

通过生物合成途径制备单甲氧基聚乙二醇嵌段共聚物-共聚（6,14-二甲基-1,3,9,11-四氧杂-6,14-二氮杂环十六烷-2,10-二酮-co-ε-己内酯）[mPEG-b-聚（ADMC-co-CL）]的功能性两亲三嵌段共聚物。进一步通过透析法制备共聚物的自组装纳米球和载药胶束。在不同 pH 值下观察可调 pH 值形态变化和药物释放模式。

结果

设计了一系列具有不同聚（ADMC-co-CL）嵌段组成的三嵌段聚乙二醇化共聚物，具有高细胞生物相容性。共聚物在水介质中容易自组装成纳米级胶束（~100nm），在不同介质中包括去离子水、中性 NaCl 溶液和肝素钠溶液中孵育 80 小时以上表现出高度稳定性。由于 ADMC 单元中的叔胺基团的质子化-去质子化，在不同 pH 值下通过 CAC 值和水动力尺寸的变化揭示了胶束的酸诱导结构变形。与专门设计用于改善药物负载的 PEG-聚酯胶束相比，载药效率相当。明显检测到布洛芬负载的 mPEG-b-聚（ADMC-co-CL）胶束系统中由酸度引发的加速药物释放，表明具有快速 pH 响应特性。

结论

成功开发了具有正电荷聚酯核的功能性 PEG 稳定的胶束载体，用于快速 pH 响应药物释放。

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聚乙二醇稳定的具有正电荷聚酯核的胶束系统，用于快速 pH 响应药物释放。

PEG-stabilized micellar system with positively charged polyester core for fast pH-responsive drug release.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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