Scaffold-free, Human Mesenchymal Stem Cell-Based Tissue Engineered Blood Vessels

Authors
Jung, YoungmeeJi, HaYeunChen, ZaozaoChan, Hon FaiAtchison, LeighKlitzman, BruceTruskey, GeorgeLeong, Kam W.
Issue Date
2015-10-12
Publisher
NATURE PUBLISHING GROUP
Citation
SCIENTIFIC REPORTS, v.5
Abstract
Tissue-engineered blood vessels (TEBV) can serve as vascular grafts and may also play an important role in the development of organs-on-a-chip. Most TEBV construction involves scaffolding with biomaterials such as collagen gel or electrospun fibrous mesh. Hypothesizing that a scaffold-free TEBV may be advantageous, we constructed a tubular structure (1 mm i.d.) from aligned human mesenchymal cell sheets (hMSC) as the wall and human endothelial progenitor cell (hEPC) coating as the lumen. The burst pressure of the scaffold-free TEBV was above 200 mmHg after three weeks of sequential culture in a rotating wall bioreactor and perfusion at 6.8 dynes/cm(2). The interwoven organization of the cell layers and extensive extracellular matrix (ECM) formation of the hMSC-based TEBV resembled that of native blood vessels. The TEBV exhibited flow-mediated vasodilation, vasoconstriction after exposure to 1 mu M phenylephrine and released nitric oxide in a manner similar to that of porcine femoral vein. HL-60 cells attached to the TEBV lumen after TNF-alpha activation to suggest a functional endothelium. This study demonstrates the potential of a hEPC endothelialized hMSC-based TEBV for drug screening.
Keywords
DIAMETER VASCULAR GRAFTS; ENDOTHELIAL-CELLS; DRUG; FLOW; DISEASE; ACTIVATION; MECHANISMS; BIOMARKERS; TOXICITY; ADHESION; DIAMETER VASCULAR GRAFTS; ENDOTHELIAL-CELLS; DRUG; FLOW; DISEASE; ACTIVATION; MECHANISMS; BIOMARKERS; TOXICITY; ADHESION
ISSN
2045-2322
URI
https://pubs.kist.re.kr/handle/201004/124895
DOI
10.1038/srep15116
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KIST Article > 2015
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