Control of Adhesion, Focal Adhesion Assembly, and Differentiation of Myoblasts by Enzymatically Crosslinked Cell-Interactive Hydrogels

Indong Jun; Kyung Min Park; Dong Yun Lee

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Control of Adhesion, Focal Adhesion Assembly, and Differentiation of Myoblasts by Enzymatically Crosslinked Cell-Interactive Hydrogels

机译：酶联交联的细胞相互作用水凝胶的粘附，局灶粘附大会和成肌细胞的分化的控制。

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The development of an artificial matrix is critical as both a substrate to control the cell behavior and as a tool for examining the roles of cellular microenvironment in biology. This study developed cell-interactive hydro-gels containing a Arg-Gly-Asp (RGD) peptide, cross-linked via bio-inspired enzymatic processes using H2O2 and horseradish peroxidase (HRP) as the initiators and examined how they controlled myoblast functions. The cell-interactive hydrogels modulated the adhesion and proliferation of myoblast, depending on the peptide density. Furthermore, the expression of focal adhesion proteins and myogenic differentiation were up-regulated significantly in myoblasts cultured on peptide-incorporated hydrogels. Therefore, the novel hydrogel system can be used to regulate the cell function for many tissue engineering applications.

机译：人造基质的开发对于控制细胞行为的底物和检查细胞微环境在生物学中的作用都是至关重要的。这项研究开发了包含Arg-Gly-Asp（RGD）肽的细胞互动水凝胶，该水凝胶通过使用H2O2和辣根过氧化物酶（HRP）作为引发剂的生物启发性酶促过程进行交联，并研究了它们如何控制成肌细胞功能。取决于肽的密度，细胞相互作用的水凝胶调节成肌细胞的粘附和增殖。此外，在掺有肽的水凝胶上培养的成肌细胞中，粘着斑粘附蛋白的表达和成肌分化显着上调。因此，新颖的水凝胶系统可用于调节许多组织工程应用的细胞功能。

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《Macromolecular Research 》 |2011年第9期| 共10页
作者
Indong Jun; Kyung Min Park; Dong Yun Lee;
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正文语种 eng
中图分类高分子化学（高聚物） ;
关键词
in situ gelatin; enzyme polyerization; RGD peptide; myoblast adhesion; myogenic differentiation;

机译：明胶;酶多聚;RGD肽;成肌细胞粘附;成肌分化;

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1. Control of adhesion, focal adhesion assembly, and differentiation of myoblasts by enzymatically crosslinked cell-interactive hydrogels [J] . Indong Jun, Kyung Min Park, Dong Yun Lee, Macromolecular Research . 2011 ,第9期

机译：通过酶交联的细胞相互作用水凝胶控制粘附，粘着斑组装和成肌细胞分化
2. Erratum to: Control of Adhesion, focal adhesion assembly, and Differentiation of Myoblasts by Enzymatically Crosslinked Cell-Interactive Hydrogels [J] . Authors/Authors Macromolecular Research . 2011 ,第10期

机译：勘误到：通过酶促交联的细胞相互作用水凝胶控制粘附，粘着斑组装和成肌细胞分化
3. Control of Adhesion, Focal Adhesion Assembly, and Differentiation of Myoblasts by Enzymatically Crosslinked Cell-Interactive Hydrogels [J] . Indong Jun, Kyung Min Park, Dong Yun Lee Macromolecular Research . 2011 ,第9期

机译：酶联交联的细胞相互作用水凝胶的粘附，局灶粘附大会和成肌细胞的分化的控制。
4. Controlling the Adhesion and Differentiation of Mesenchy mal Stem Cells Using Cell Responsive, Hyaluronic Acid-based, Doubly-Crosslinked Networks [C] . Amit K. Jha, Xinqiao Jia Annual meeting of the Society for Biomaterials . 2011

机译：使用细胞响应性，透明质酸为基础的双交联网络控制间充质干细胞的粘附和分化。
5. Focal Adhesions are Mechanosensitive and Regulate Stem Cell Differentiation. [D] . Holle, Andrew W. 2013

机译：局灶性粘附是机械敏感的，并调节干细胞分化。
6. Controlling the Adhesion and Differentiation of Mesenchymal Stem Cells Using Hyaluronic Acid-based Doubly Crosslinked Networks [O] . Amit K. Jha, Xian Xu, Randall L. Duncan, -1

机译：使用透明质酸的透明质酸双交联网络控制间充质干细胞的粘附性和分化
7. c-Src controls stability of sprouting blood vessels in the developing retina independently of cell-cell adhesion through focal adhesion assembly [O] . Lilian Schimmel, Daisuke Fukuhara, Mark Richards, 2020

机译：C-SRC通过局灶性粘附组件，独立于细胞 - 细胞粘附，控制显影视网膜中发芽血管的稳定性

Control of Adhesion, Focal Adhesion Assembly, and Differentiation of Myoblasts by Enzymatically Crosslinked Cell-Interactive Hydrogels

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