生物相容性,ph敏感的AB(2) Miktoarm聚合物基聚合体:制备,表征和酸性ph激活的纳米结构转化。

Haiqing Yin, Han Chang Kang, Kang Moo Huh, You Han Bae
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引用次数: 50

摘要

由于脂质体给药系统的局限性,我们设计了一种新的基于组氨酸的AB(2)-miktoarm聚合物(mPEG-b-(polyHis)(2)),具有磷脂模拟结构,低细胞毒性和ph敏感性。利用“核优先”点击化学和开环聚合,成功合成了分子量分布较窄(1.14)的mPEG(2kDa)-b-(polyHis(29kDa))(2)。在硼酸盐缓冲液(pH为9)中,mitoarm聚合物自组装形成纳米级聚合物,其水动力半径为70.2 nm,尺寸多分散性非常窄(0.05)。在4.2µmol/mg聚合物下,mPEG(2kDa)-b-(polyHis(29kDa))(2)在内溶酶体pH范围内强烈缓冲酸化,并在暴露5 d后表现出低细胞毒性。当pH值低于7.4时,随着pH值的降低,聚合体转变为圆柱形胶束、球形胶束和单体。ph诱导的mPEG(2kDa)-b-(polyHis(29kDa))(2)纳米结构的结构转变可能是由mPEG(2kDa)-b-(polyHis(29kDa)))(2)的亲水重量分数增加引起的,并且可以通过mPEG(2kDa)-b-(polyHis(29kDa))的质子缓冲和膜融合来破坏内体膜(2)。此外,包裹在聚合物水腔内的亲水性模型染料5(6)-羧基荧光素在pH 7.4时缓释,但在pH 6.8以下释放速度大大加快,表明该系统在内体pH范围内具有理想的pH敏感性。因此,这种基于生物相容性组氨酸基mitoarm聚合物并经历酸诱导转化的聚合物可以作为化学和生物药物的药物递送载体。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biocompatible, pH-sensitive AB(2) Miktoarm Polymer-Based Polymersomes: Preparation, Characterization, and Acidic pH-Activated Nanostructural Transformation.

Motivated by the limitations of liposomal drug delivery systems, we designed a novel histidine-based AB(2)-miktoarm polymer (mPEG-b-(polyHis)(2)) equipped with a phospholipid-mimic structure, low cytotoxicity, and pH-sensitivity. Using "core-first" click chemistry and ring-opening polymerization, mPEG(2kDa)-b-(polyHis(29kDa))(2) was successfully synthesized with a narrow molecular weight distribution (1.14). In borate buffer (pH 9), the miktoarm polymer self-assembled to form a nano-sized polymersome with a hydrodynamic radius of 70.2 nm and a very narrow size polydispersity (0.05). At 4.2 µmol/mg polymer, mPEG(2kDa)-b-(polyHis(29kDa))(2) strongly buffered against acidification in the endolysosomal pH range and exhibited low cytotoxicity on a 5 d exposure. Below pH 7.4 the polymersome transitioned to cylindrical micelles, spherical micelles, and finally unimers as the pH was decreased. The pH-induced structural transition of mPEG(2kDa)-b-(polyHis(29kDa))(2) nanostructures may be caused by the increasing hydrophilic weight fraction of mPEG(2kDa)-b-(polyHis(29kDa))(2) and can help to disrupt the endosomal membrane through proton buffering and membrane fusion of mPEG(2kDa)-b-(polyHis(29kDa))(2). In addition, a hydrophilic model dye, 5(6)-carboxyfluorescein encapsulated into the aqueous lumen of the polymersome showed a slow, sustained release at pH 7.4 but greatly accelerated release below pH 6.8, indicating a desirable pH sensitivity of the system in the range of endosomal pH. Therefore, this polymersome that is based on a biocompatible histidine-based miktoarm polymer and undergoes acid-induced transformations could serve as a drug delivery vehicle for chemical and biological drugs.

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来源期刊
Journal of Materials Chemistry
Journal of Materials Chemistry 工程技术-材料科学:综合
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