University of California, Chemical and Biomolecular Engineering Department, Los Angeles, CA 90095, United States.
Biomaterials. 2011 Oct;32(30):7432-43. doi: 10.1016/j.biomaterials.2011.06.027. Epub 2011 Jul 23.
Vascular endothelial growth factor (VEGF) has been extensively investigated to promote vascularization at damaged or diseased sites and in tissue implants. Here we are interested in determining if the manner in which VEGF is presented from a scaffold to endothelial cells influences the architecture of the blood vessels formed. We bound VEGF to nanoparticles and placed these nanoparticles inside fibrin hydrogels, which contained human umbilical vein endothelial cells (HUVECs) bound to cytodex beads. Fibroblast cells are plated on top of the fibrin gel to further mimic a physiologic environment. In addition, we used a chorioallantoic membrane (CAM) assay to determine the role of VEGF presentation on angiogenesis in vivo. We tested VEGF bound in high density and low density to study differences between growth factor presentation in heterogeneous nanodomains and homogenous distribution. VEGF covalently bound to nanoparticles at high density led to an increase in HUVEC tube branching, thickness, and total vessel network length compared to soluble VEGF. While VEGF bound electrostatically exhibited no significant difference with covalently bound VEGF in the tube formation assay, this method failed to promote host vessel infiltration into the fibrin implant on the CAM. Together our data suggest that the mode of VEGF presentation to endothelial cells influences the vessel architecture and vascularization of implants in vivo.
血管内皮生长因子(VEGF)已被广泛研究用于促进受损或患病部位和组织植入物的血管生成。在这里,我们感兴趣的是确定 VEGF 从支架递送到内皮细胞的方式是否会影响形成的血管结构。我们将 VEGF 结合到纳米颗粒上,并将这些纳米颗粒放置在含有与人脐静脉内皮细胞(HUVEC)结合的纤连蛋白水凝胶中。成纤维细胞被种植在纤维蛋白凝胶的顶部,以进一步模拟生理环境。此外,我们使用绒毛尿囊膜(CAM)测定来确定 VEGF 在体内血管生成中的呈现方式的作用。我们测试了 VEGF 在高密度和低密度下的结合,以研究在异质纳米域和同质分布中生长因子呈现的差异。与可溶性 VEGF 相比,高密度共价结合的 VEGF 导致 HUVEC 管分支、厚度和总血管网络长度增加。虽然静电结合的 VEGF 在管形成测定中与共价结合的 VEGF 没有显著差异,但这种方法未能促进宿主血管渗透到 CAM 上的纤维蛋白植入物中。我们的数据表明,VEGF 递送到内皮细胞的方式会影响植入物在体内的血管结构和血管生成。