可降解聚合物纳米纤维的静电纺丝后“三点击”功能化

Post-Electrospinning "Triclick" Functionalization of Degradable Polymer Nanofibers.

作者信息

Zheng Jukuan, Hua Geng, Yu Jiayi, Lin Fei, Wade Mary Beth, Reneker Darrell H, Becker Matthew L

机构信息

Department of Polymer Science, ‡Department of Biomedical Engineering, and §Integrated Bioscience Program, The University of Akron, Akron, Ohio 44325, United States.

Department of Polymer Science, Department of Biomedical Engineering, and §Integrated Bioscience Program, The University of Akron, Akron, Ohio 44325, United States.

出版信息

ACS Macro Lett. 2015 Feb 17;4(2):207-213. doi: 10.1021/mz500759n. Epub 2015 Jan 26.

DOI:10.1021/mz500759n

PMID:35596433

Abstract

4-Dibenzocyclooctynol (DIBO) was used as an initiator for the ring-opening copolymerization of ε-caprolactone and 1,4,8-trioxaspiro[4.6]-9-undecanone (TOSUO) resulting in a series of DIBO end-functionalized copolymers. Following deprotection of the ketone group, the polymers were derivatized with aminooxyl-containing compounds by oxime ligation. Mixtures of keto- and alkyne-derivatized polymers were co-electrospun into well-defined nanofibers containing three separate chemical handles. Strain-promoted azide alkyne cycloaddition (SPAAC), oxime ligation, and copper-catalyzed azide alkyne cycloaddition (CuAAC) were used to sequentially functionalize the nanofibers first with fluorescent reporters and then separately with bioactive Gly-Arg-Gly-Asp-Ser (GRGDS), BMP-2 peptide, and dopamine. This translationally relevant approach facilitates the straightforward derivatization of diverse bioactive molecules that can be controllably tethered to the surface of nanofibers.

摘要

4-二苯并环辛炔醇（DIBO）用作ε-己内酯与1,4,8-三氧杂螺[4.6]-9-十一烷酮（TOSUO）开环共聚的引发剂，得到一系列DIBO端基功能化共聚物。酮基脱保护后，聚合物通过肟连接用含氨氧基的化合物进行衍生化。酮基和炔基衍生化聚合物的混合物共电纺成含有三个独立化学官能团的明确纳米纤维。利用应变促进的叠氮化物-炔烃环加成（SPAAC）、肟连接和铜催化的叠氮化物-炔烃环加成（CuAAC），首先用荧光报告基团对纳米纤维进行顺序功能化，然后分别用生物活性甘氨酸-精氨酸-甘氨酸-天冬氨酸-丝氨酸（GRGDS）、骨形态发生蛋白-2（BMP-2）肽和多巴胺进行功能化。这种与翻译相关的方法有助于将各种生物活性分子直接衍生化，这些分子可以可控地连接到纳米纤维表面。

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可降解聚合物纳米纤维的静电纺丝后“三点击”功能化

Post-Electrospinning "Triclick" Functionalization of Degradable Polymer Nanofibers.

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