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The development of synthetic vascular grafts for coronary artery bypass is challenged by insufficient endothelialization, which increases the risk of thrombosis, and the lack of native cellular constituents, which favors pathological remodeling. Here, a bifunctional electrospun poly(ε-caprolactone) (PCL) scaffold with potential for synthetic vascular graft applications is presented. This scaffold incorporates two tethered peptides: the osteopontin-derived peptide (Adh) on the "luminal" side and a heparin-binding peptide (Hep) on the "abluminal" side. Additionally, the "abluminal" side of the scaffold is seeded with saphenous vein-derived pericytes (SVPs) as a source of proangiogenic growth factors. The Adh peptide significantly increases endothelial cell adhesion, while the Hep peptide promotes accumulation of vascular endothelial growth factor secreted by SVPs. SVPs increase endothelial migration both in a transwell assay and a modified scratch assay performed on the PCL scaffold. Seeding of SVPs on the "abluminal"/Hep side of the scaffold further increases endothelial cell density, indicating a combinatory effect of the peptides and pericytes. Finally, SVP-seeded scaffolds are preserved by freezing in a xeno-free medium, maintaining good cell viability and function. In conclusion, this engineered scaffold combines patient-derived pericytes and spatially organized functionalities, which synergistically increase endothelial cell density and growth factor retention.

Original publication

DOI

10.1002/adhm.201600699

Type

Journal article

Journal

Adv Healthc Mater

Publication Date

12/2016

Volume

5

Pages

3046 - 3055

Keywords

biofunctionalization, electrospinning, endothelialization, pericytes, tissue engineered vascular graft, Blood Vessel Prosthesis, Cell Adhesion, Cell Movement, Cell Survival, Cells, Cultured, Coronary Vessels, Endothelial Cells, Heparin, Humans, Osteopontin, Peptides, Pericytes, Polyesters, Tissue Engineering, Tissue Scaffolds, Vascular Endothelial Growth Factor A