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真核细胞仿生构建:具有酶促反应调节的蛋白运输的分级聚合物囊-蛋白核多隔间结构

Construction of Eukaryotic Cell Biomimetics: Hierarchical Polymersomes-in-Proteinosome Multicompartment with Enzymatic Reactions Modulated Protein Transportation.

机构信息

MIIT Key Laboratory of Critical Materials Technology for New Energy Conversion and Storage, School of Chemistry and Chemical Engineering, Harbin Institute of Technology (HIT), Harbin, 150001, P. R. China.

Leibniz-Institut für Polymerforschung Dresden e.V., Hohe Straße 6, D-01069, Dresden, Germany.

出版信息

Small. 2021 Feb;17(7):e2005749. doi: 10.1002/smll.202005749. Epub 2020 Dec 29.

Abstract

The eukaryotic cell is a smart compartment containing an outer permeable membrane, a cytoskeleton, and functional organelles, presenting part structures for life. The integration of membrane-containing artificial organelles (=polymersomes) into a large microcompartment is a key step towards the establishment of exquisite cellular biomimetics with different membrane properties. Herein, an efficient way to construct a hierarchical multicompartment composed of a hydrogel-filled proteinosome hybrid structure with an outer homogeneous membrane, a smart cytoskeleton-like scaffold, and polymersomes is designed. Specially, this hybrid structure creates a micro-environment for pH-responsive polymersomes to execute a desired substance transport upon response to biological stimuli. Within the dynamic pH-stable skeleton of the protein hydrogels, polymersomes with loaded PEGylated insulin biomacromolecules demonstrate a pH-responsive reversible swelling-deswelling and a desirable, on-demand cargo release which is induced by the enzymatic oxidation of glucose to gluconic acid. This stimulus responsive behavior is realized by tunable on/off states through protonation of the polymersomes membrane under the enzymatic reaction of glucose oxidase, integrated in the skeleton of protein hydrogels. The integration of polymersomes-based hybrid structure into the proteinosome compartment and the stimuli-response on enzyme reactions fulfills the requirements of eukaryotic cell biomimetics in complex architectures and allows mimicking cellular transportation processes.

摘要

真核细胞是一种智能隔间,包含一个外透膜、细胞骨架和功能细胞器,呈现出生命的部分结构。将含有膜的人工细胞器(=聚合物囊泡)整合到大型微隔间中是建立具有不同膜性质的精致细胞仿生学的关键步骤。在此,设计了一种有效构建由水凝胶填充的蛋白质囊泡混合结构、外均匀膜、智能细胞骨架样支架和聚合物囊泡组成的分级多隔间的方法。特别地,这种混合结构为 pH 响应聚合物囊泡创造了一个微环境,使其在响应生物刺激时能够执行所需的物质运输。在蛋白质水凝胶的动态 pH 稳定骨架内,负载聚乙二醇化胰岛素生物大分子的聚合物囊泡表现出 pH 响应的可逆溶胀-收缩以及按需的货物释放,这是由葡萄糖氧化酶将葡萄糖氧化为葡萄糖酸诱导的。这种刺激响应行为是通过在葡萄糖氧化酶的酶反应下,通过质子化聚合物囊泡的膜来实现可调的开/关状态,整合在蛋白质水凝胶的骨架中。聚合物囊泡基混合结构的整合到蛋白质囊泡隔间中和酶反应的刺激响应满足了复杂结构中真核细胞仿生学的要求,并允许模拟细胞运输过程。

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