蛋白酶敏感的聚乙二醇水凝胶在体外和体内调节血管生成。
Protease-sensitive PEG hydrogels regulate vascularization in vitro and in vivo.
作者信息
Vigen Marina, Ceccarelli Jacob, Putnam Andrew J
机构信息
Department of Biomedical Engineering, University of Michigan, 2154 Lurie Biomedical Engineering Building, 1101 Beal Ave, Ann Arbor, MI 48109, USA.
出版信息
Macromol Biosci. 2014 Oct;14(10):1368-79. doi: 10.1002/mabi.201400161. Epub 2014 Jun 18.
Abstract
Forming functional blood vessel networks in engineered or ischemic tissues is a significant scientific and clinical hurdle. Poly(ethylene glycol) (PEG)-based hydrogels are adapted to investigate the role of mechanical properties and proteolytic susceptibility on vascularization. Four arm PEG vinyl sulfone is polymerized by Michael-type addition with cysteine groups on a slowly degraded matrix metalloprotease (MMP) susceptible peptide, GPQG↓IWGQ, or a more rapidly cleaved peptide, VPMS↓MRGG. Co-encapsulation of endothelial cells and supportive fibroblasts within the gels lead to vascular morphogenesis in vitro that is robust to changes in crosslinking peptide identity, but is significantly attenuated by increased crosslinking and MMP inhibition. Perfused vasculature forms from transplanted cells in vivo in all gel types; however, in contrast to the in vitro results, vascularization in vivo is not decreased in the more crosslinked gels. Collectively, these findings demonstrate the utility of this platform to support vascularization both in vitro and in vivo.
摘要
在工程组织或缺血组织中形成功能性血管网络是一个重大的科学和临床障碍。基于聚乙二醇(PEG)的水凝胶适用于研究机械性能和蛋白水解敏感性对血管生成的作用。四臂PEG乙烯砜通过迈克尔型加成与缓慢降解的基质金属蛋白酶(MMP)敏感肽GPQG↓IWGQ或更快速裂解的肽VPMS↓MRGG上的半胱氨酸基团聚合。凝胶内共包封内皮细胞和支持性成纤维细胞可导致体外血管形态发生,这种形态发生对交联肽特性的变化具有很强的抗性,但会因交联增加和MMP抑制而显著减弱。所有凝胶类型在体内移植细胞均能形成灌注血管系统;然而,与体外结果相反,体内血管生成在交联程度更高的凝胶中并未减少。总体而言,这些发现证明了该平台在体外和体内支持血管生成的实用性。
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