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A hybrid biomimetic nanomatrix composed of electrospun polycaprolactone and bioactive peptide amphiphiles for cardiovascular implants

Authors
 Adinarayana Andukuri  ;  Meenakshi Kushwaha  ;  Ajay Tambralli  ;  Joel M Anderson  ;  Derrick R Dean  ;  Joel L Berry  ;  Young Doug Sohn  ;  Young-Sup Yoon  ;  Brigitta C. Brott  ;  Ho-Wook Jun 
Citation
 Acta Biomaterialia, Vol.7(1) : 225-233, 2011 
Journal Title
 Acta Biomaterialia 
ISSN
 1742-7061 
Issue Date
2011
MeSH
Amino Acid Sequence ; Biocompatible Materials/pharmacology* ; Blood Vessel Prosthesis* ; Cell Adhesion/drug effects ; Cell Death/drug effects ; Cell Proliferation/drug effects ; Cell Survival/drug effects ; Endothelial Cells/cytology ; Endothelial Cells/drug effects ; Endothelial Cells/metabolism ; Humans ; Molecular Sequence Data ; Myocytes, Smooth Muscle/cytology ; Myocytes, Smooth Muscle/drug effects ; Myocytes, Smooth Muscle/metabolism ; Nanoparticles/chemistry* ; Nanoparticles/ultrastructure ; Nitric Oxide/metabolism ; Peptides/chemistry ; Peptides/pharmacology* ; Platelet Adhesiveness/drug effects ; Polyesters/pharmacology* ; Surface-Active Agents/pharmacology* ; Tissue Engineering/methods* ; Umbilical Veins/cytology
Abstract
Current cardiovascular therapies are limited by the loss of endothelium, restenosis and thrombosis. The goal of this study was to develop a biomimetic hybrid nanomatrix that combined the unique properties of electrospun polycaprolactone (ePCL) nanofibers with self-assembled peptide amphiphiles (PAs). ePCL nanofibers have interconnected nanoporous structures, but are hampered by a lack of surface bioactivity to control cellular behavior. It has been hypothesized that PAs could self-assemble onto the surface of ePCL nanofibers and endow them with the characteristic properties of native endothelium. The PAs, which comprised hydrophobic alkyl tails attached to functional hydrophilic peptide sequences, contained enzyme-mediated degradable sites coupled to either endothelial cell-adhesive ligands (YIGSR) or polylysine (KKKKK) nitric oxide (NO) donors. Two different PAs (PA-YIGSR and PA-KKKKK) were successfully synthesized and mixed in a 90:10 (YK) ratio to obtain PA-YK. PA-YK was reacted with pure NO to develop PA-YK-NO, which was then self-assembled onto ePCL nanofibers to generate a hybrid nanomatrix, ePCL-PA-YK-NO. Uniform coating of self-assembled PA nanofibers on ePCL was confirmed by transmission electron microscopy. Successful NO release from ePCL-PA-YK-NO was observed. ePCL-YK and ePCL-PA-YK-NO showed significantly increased adhesion of human umbilical vein endothelial cells (HUVECs). ePCL-PA-YK-NO also showed significantly increased proliferation of HUVECs and reduced smooth muscle cell proliferation. ePCL-PA-YK-NO also displayed significantly reduced platelet adhesion compared with ePCL, ePCL-PA-YK and a collagen control. These results indicate that this hybrid nanomatrix has great potential application in cardiovascular implants.
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DOI
10.1016/j.actbio.2010.08.013
Appears in Collections:
1. College of Medicine (의과대학) > BioMedical Science Institute (의생명과학부) > 1. Journal Papers
Yonsei Authors
윤영섭(Yoon, Young Sup)
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URI
https://ir.ymlib.yonsei.ac.kr/handle/22282913/158206
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