A necessary condition for endothelialization of small diameter grafts is rapid and firm adhesion of endothelial cells upon exposure to flow. To retain integrins on the cell surface, we assessed the effects of trypsin concentration, the duration of trypsin incubation, and trypsin neutralization methods on endothelial cell adhesion. Human umbilical vein endothelial cells which were detached using 0.025% trypsin for 5 min and seeded onto glass pretreated with fibronectin had close to 100% cell retention when shear stresses as high as 200 dyn/cm2 were applied for 2 min. An equivalent level of cell retention was observed on fibronectin coated Teflon-AF for shear stresses up to 60 dyn/cm2 applied for 4h. Using 0.025% trypsin, initial cell spreading and cell surface alpha5beta1 integrins were increased relative to cells treated with 0.5% trypsin. After 1h of attachment, focal adhesions formed when low trypsin concentrations were used but were less evident with high trypsin concentrations. These results showed that low trypsin concentrations produced faster spreading, a higher number of intact integrins, and rapid focal adhesion formation.
A dual ligand (DL) system that combines high affinity streptavidin-biotin binding with lower affinity fibronectin-integrin ligand binding was developed to augment endothelial cell adhesion to polymers. In this study, we examined the utility of biotinylated fibronectin (bFN) as an enhancement to the previously developed DL approach. The goal was to make the system more amenable to clinical studies by eliminating xenogenic bovine serum albumin (bBSA). Fibronectin (FN) biotinylation was achieved with Sulfo-NHS-LC-Biotin. The affinity of conjugated biotin for wild-type streptavidin (WT-SA) and a mutant strain streptavidin (RGD-SA) was measured using surface plasmon resonance (SPR) spectroscopy. Enzyme-Linked ImmunoSorbent Assay (ELISA) absorbance values confirmed the accessibility of the cell binding domain on mildly biotinylated bFN when compared to unmodified native protein. SPR binding analysis confirmed similar binding behavior to bFN with WT-SA and RGD-SA. Kinetic analysis, however, showed no increase in affinity due to increased biotins per FN, an indication of the absence of positive cooperativity in the system. We verified the essential utility of bFN in affinity binding by SPR and confirmed the potential for integrin-FN linkages by ELISA. Finally, Vinculin immunostaining was used to determine focal adhesion formation using bFN in the DL system. Significantly greater focal adhesion density was achieved with the bFN in the DL system than with FN alone.
Surfaces decorated with high affinity ligands can be used to facilitate rapid attachment of endothelial cells; however, standard equilibrium cell detachment studies are poorly suited for assessing these initial adhesion events. Here, a dynamic seeding and cell retention method was used to examine the initial attachment of perfusing human umbilical vein endothelial cells (HUVECs) to bare Teflon-AF substrates, substrates pre-adsorbed with fibronectin alone, or substrates co-pre-adsorbed with two dual-function cell-adhesion ligands: biotinylated fibronectin (bFN) and RGD-streptavidin mutant (RGD-SA). Cell attachment was evaluated as a function of cell trypsinization (integrin digestion), surface protein formulation, and cell perfusion rate. Surfaces co-pre-adsorbed with bFN and RGD-SA showed the highest density of attached cells after 8 min of perfusion and the highest percent retention when subjected to shear flow at 60 dynes/cm2 for 2 min. Surfaces with no ligand treatment showed the lowest cell attachment and retention under flow in all cases. HUVECs trypsinized with mild 0.025% trypsin/ethylenediaminetetraacetic acid (EDTA) showed greater cell adhesion after perfusion and higher percent retention after shear flow than those trypsinized using harsher 0.05% trypsin/EDTA. The preferential affinities of the two dual-function ligands for α5β1 and αvβ3 integrins were also examined by surface plasmon resonance (SPR) spectroscopy. The dynamic cell seeding studies confirmed that the dual-function ligand system promotes HUVEC adhesion and retention at short time points when tested using a perfusion assay. SPR studies showed that the two ligands exhibited equal affinity for both α5β1 and αvβ3 integrins but that the combined ligands bound more total integrins than the two ligands tested separately.
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