仅通过受体-配体相互作用交联的自组装水凝胶：可调性、物理性质的合理化及三维细胞培养

Self-assembling hydrogels crosslinked solely by receptor-ligand interactions: tunability, rationalization of physical properties, and 3D cell culture.

作者信息

Thompson Michael S, Tsurkan Mikhail V, Chwalek Karolina, Bornhauser Martin, Schlierf Michael, Werner Carsten, Zhang Yixin

机构信息

B CUBE Center for Molecular Bioengineering, Technische Universität Dresden, Arnoldstrasse 18, Dresden 01307 (Germany), Fax: (+49) 0351-463-40322.

出版信息

Chemistry. 2015 Feb 16;21(8):3178-82. doi: 10.1002/chem.201406366. Epub 2015 Jan 9.

DOI:10.1002/chem.201406366

PMID:25581338

Abstract

We report a novel, noncovalent hydrogel system crosslinked solely by receptor-ligand interactions between biotin and avidin. The simple hydrogel synthesis and functionalization together with the widespread use of biotinylated ligands in biosciences make this versatile system suitable for many applications. The gels possess a range of tunable physical properties, including stiffness, lifetime, and swelling. The erosion rates, unexpectedly fast compared to the kinetic parameters for biotin-avidin, are explored in terms of stretching tensions on the polymers, a concept well-known on the single-molecule level, but largely unexplored in supramolecular systems. As proof of utility, the gels were functionalized with different peptide sequences to control human mesenchymal stromal cell morphology in 3D culture.

摘要

我们报道了一种新型的非共价水凝胶系统，该系统仅通过生物素与抗生物素蛋白之间的受体-配体相互作用交联而成。这种水凝胶合成方法简单且具有功能化特性，再加上生物素化配体在生物科学中的广泛应用，使得这个多功能系统适用于许多应用场景。这些凝胶具有一系列可调节的物理性质，包括硬度、寿命和膨胀性。与生物素-抗生物素蛋白的动力学参数相比，其侵蚀速率出乎意料地快，我们从聚合物上的拉伸张力方面对其进行了探究，拉伸张力这一概念在单分子水平上广为人知，但在超分子系统中 largely unexplored（此处原文有误，应改为“largely unexplored”，意为“在很大程度上未被探索”）。作为实用性的证明，我们用不同的肽序列对凝胶进行功能化处理，以在三维培养中控制人间充质基质细胞的形态。

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仅通过受体-配体相互作用交联的自组装水凝胶：可调性、物理性质的合理化及三维细胞培养

Self-assembling hydrogels crosslinked solely by receptor-ligand interactions: tunability, rationalization of physical properties, and 3D cell culture.

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