Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8340872 | Microvascular Research | 2018 | 12 Pages |
Abstract
Small-diameter vascular grafts are needed for the treatment of coronary artery diseases in the case of limited accessibility of the autologous vessels. Synthetic scaffolds have many disadvantages so in recent years vascular constructs (VCs) made from cellularized natural scaffolds was seen to be very promising but number of studies comprising this area is very limited. In our study, our aim is to generate fully natural triple-layered VC that constitutes all the layers of blood vessel with vascular cells. CD146+ perivascular cells (PCs) were isolated from human umbilical cord vein (HUCV) and differentiated into smooth muscle cells (SMCs) and fibroblasts. They were then combined with collagen type I/elastin/dermatan sulfate and collagen type I/fibrin to form tunica media and tunica adventitia respectively. HUCV endothelial cells (ECs) were seeded on the construct by cell sheet engineering method after fibronectin and heparin coating. Characterization of the VC was performed by immunolabeling, histochemical staining and electron microscopy (SEM and TEM). Differentiated cells were identified by means of immunofluorescent (IF) labeling. SEM and TEM analysis of VCs revealed the presence of three histologic tunicae. Collagen and elastic fibers were observed within the ECM by histochemical staining. The vascular endothelial growth factor receptor expressing ECs in tunica intima; α-SMA expressing SMCs in tunica media and; the tenascin expressing fibroblasts in tunica adventitia were detected by IF labeling. In conclusion, by combining natural scaffolds and vascular cells differentiated from CD146+ PCs, VCs can be generated layer by layer. This study will provide a preliminary blood vessel model for generation of fully natural small-diameter vascular grafts.
Keywords
vWFl-AAPNIPAAmVCSPen-StrepDMEM-LGWST-1PGMSMCsEGMMACSAPCHUVECCTGFECMMSCsFBSFACSFITCα-SMAECsallophycocyaninAlpha-smooth muscle actinElastinImmunofluorescentTemumbilical cordRoom temperaturePCsfetal bovine serumHuman umbilical cord vein endothelial cellsMesenchymal stem cellsSmooth muscle cellsEndothelial cellsPerivascular cellsthree dimensionalVon Willebrand factorVascular endothelial growth factorVascular Endothelial Growth Factor (VEGF)Connective tissue growth factorphycoerythrinfluorescein isothiocyanateFibrinExtracellular matrixendothelial growth mediumSEMmagnetic activated cell sortingVascular tissue engineeringCell sheet engineeringScanning electron microscopyTransmission electron microscopyPenicillin-streptomycinCollagen type I
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Authors
Beyza Gökçinar-Yagci, Nilgün Yersal, Petek Korkusuz, Betül Ãelebi-Saltik,