点击化学的可逆反应用于超快和定量形成蛋白质-聚合物纳组装体和细胞内蛋白质递送。
Reversible Click Chemistry for Ultrafast and Quantitative Formation of Protein-Polymer Nanoassembly and Intracellular Protein Delivery.
出版信息
ACS Nano. 2019 Aug 27;13(8):9408-9420. doi: 10.1021/acsnano.9b04198. Epub 2019 Jul 26.
Abstract
Construction of polymer-protein nanoassemblies is a challenge as reactions between macromolecules, especially those involving proteins, are inherently inefficient due to the sparse reactive functional groups and low concentration requirements. We address this challenge using an ultrafast and reversible click reaction, which forms the basis for a covalent self-assembly strategy between side-chain functionalized polymers and surface-modified proteins. The linkers in the assembly have been programmed to release the incarcerated proteins in its native form, only when subjected to the presence of a specific trigger. The generality and the versatility of the approach have been demonstrated by showing that this strategy can be used for proteins of different sizes and isoelectric points. Moreover, simple modifications in the linker chemistry offers the ability to trigger these assemblies with various chemical inputs. Efficient formation of nanoassemblies based on polymer-protein conjugates has implications in a variety of areas at the interface of chemistry with materials and biology, such as in the generation of active surfaces and in delivery of biologics. As a demonstration of utility in the latter, we have shown that these conjugates can be used to transport functional proteins across cellular membranes.
摘要
聚合物-蛋白质纳米组装的构建是一个挑战,因为大分子之间的反应,特别是涉及蛋白质的反应,由于稀疏的反应性功能基团和低浓度要求,本质上效率低下。我们使用超快和可逆的点击反应来解决这个挑战,该反应是侧链功能化聚合物和表面修饰蛋白质之间共价自组装策略的基础。组装中的连接子被设计为仅在存在特定触发时以其天然形式释放被监禁的蛋白质。该方法的通用性和多功能性已经通过证明该策略可以用于不同大小和等电点的蛋白质得到了证明。此外,在连接子化学中进行简单的修饰,可以使这些组装体能够用各种化学输入进行触发。基于聚合物-蛋白质缀合物的纳米组装的高效形成在化学与材料和生物学界面的多个领域具有重要意义,例如在活性表面的生成和生物制剂的输送方面。作为后者在实用性方面的一个证明,我们已经表明,这些缀合物可以用于将功能性蛋白质输送穿过细胞膜。
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