调控蛋白质水凝胶的化学和物理交联以调节胚胎干细胞生长。

Orchestrating Chemical and Physical Cross-Linking in Protein Hydrogels to Regulate Embryonic Stem Cell Growth.

机构信息

Beijing National Laboratory for Molecular Sciences, Key Laboratory of Polymer Chemistry & Physics of Ministry of Education, Center for Soft Matter Science and Engineering, College of Chemistry and Molecular Engineering, Peking University, Beijing 100871, P. R. China.

Beijing Academy of Artificial Intelligence, Beijing 100084, P. R. China.

出版信息

ACS Macro Lett. 2023 Feb 21;12(2):269-273. doi: 10.1021/acsmacrolett.2c00741. Epub 2023 Feb 3.

DOI:10.1021/acsmacrolett.2c00741

PMID:36735236

Abstract

Protein hydrogels are ideal candidates for next-generation biomaterials due to their genetically programmable properties. Herein, we report an entirely protein-based hydrogel as an artificial extracellular matrix (ECM) for regulating the embryonic stem cell growth. A synergy between chemical and physical cross-linking was achieved in one step by SpyTag/SpyCatcher reaction and P zipper association at 37 °C. The hydrogels' stress relaxation behaviors can be tuned across a broad spectrum by single-point mutation on a P zipper. It has been found that faster relaxation can promote the growth of HeLa tumor spheroids and embryonic stem cells, and mechanical regulation of embryonic stem cells occurs via retention of the cells at the G1 phase. The results highlight the promise of genetically encoded protein materials as a platform of artificial ECM for understanding and controlling the complex cell-matrix interactions in a 3D cell culture.

摘要

蛋白质水凝胶由于其遗传可编程特性，是下一代生物材料的理想候选材料。在此，我们报告了一种完全基于蛋白质的水凝胶作为人工细胞外基质 (ECM) 来调节胚胎干细胞生长。通过 SpyTag/SpyCatcher 反应和 P 拉链在 37°C 下的协同作用，一步实现了化学交联和物理交联的协同作用。通过 P 拉链上的单点突变，可以在很宽的范围内调整水凝胶的应力松弛行为。研究发现，更快的松弛可以促进 HeLa 肿瘤球体和胚胎干细胞的生长，并且通过将细胞保留在 G1 期来实现对胚胎干细胞的机械调节。这些结果突出了基因编码蛋白材料作为人工 ECM 平台的前景，用于理解和控制 3D 细胞培养中的复杂细胞-基质相互作用。

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调控蛋白质水凝胶的化学和物理交联以调节胚胎干细胞生长。

Orchestrating Chemical and Physical Cross-Linking in Protein Hydrogels to Regulate Embryonic Stem Cell Growth.

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