Development and Preliminary Testing of Porcine Blood-Derived Endothelial-like Cells for Vascular Tissue Engineering Applications: Protocol Optimisation and Seeding of Decellularised Human Saphenous Veins

Andrew R Bond; Vito Domenico Bruno; Jason L Johnson; Sarah J George; Raimondo Ascione

doi:10.3390/ijms23126633

Development and Preliminary Testing of Porcine Blood-Derived Endothelial-like Cells for Vascular Tissue Engineering Applications: Protocol Optimisation and Seeding of Decellularised Human Saphenous Veins

Andrew R Bond, Vito Domenico Bruno, Jason L Johnson, Sarah J George, Raimondo Ascione^*

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

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Abstract

Functional endothelial cells (EC) are a critical interface between blood vessels and the thrombogenic flowing blood. Disruption of this layer can lead to early thrombosis, inflammation, vessel restenosis, and, following coronary (CABG) or peripheral (PABG) artery bypass graft surgery, vein graft failure. Blood-derived ECs have shown potential for vascular tissue engineering applications. Here, we show the development and preliminary testing of a method for deriving porcine endothelial-like cells from blood obtained under clinical conditions for use in translational research. The derived cells show cobblestone morphology and expression of EC markers, similar to those seen in isolated porcine aortic ECs (PAEC), and when exposed to increasing shear stress, they remain viable and show mRNA expression of EC markers similar to PAEC. In addition, we confirm the feasibility of seeding endothelial-like cells onto a decellularised human vein scaffold with approximately 90% lumen coverage at lower passages, and show that increasing cell passage results in reduced endothelial coverage.

Original language	English
Article number	6633
Pages (from-to)	1-22
Number of pages	22
Journal	International Journal of Molecular Sciences
Volume	23
Issue number	12
DOIs	https://doi.org/10.3390/ijms23126633
Publication status	Published - 14 Jun 2022

Bibliographical note

Funding Information:
This research was funded by a Project Grant awarded by the British Heart Foundation (BHF) PG/104/32652) to Ascione. In addition, this work was enhanced by BHF and Medical Research Council (MRC) grants to Ascione (BHF IG/14/2/30991, MRC MR/L012723/1).

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© 2022 by the authors. Licensee MDPI, Basel, Switzerland.

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Bond, A. R., Bruno, V. D., Johnson, J. L., George, S. J., & Ascione, R. (2022). Development and Preliminary Testing of Porcine Blood-Derived Endothelial-like Cells for Vascular Tissue Engineering Applications: Protocol Optimisation and Seeding of Decellularised Human Saphenous Veins. International Journal of Molecular Sciences, 23(12), 1-22. Article 6633. https://doi.org/10.3390/ijms23126633

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title = "Development and Preliminary Testing of Porcine Blood-Derived Endothelial-like Cells for Vascular Tissue Engineering Applications: Protocol Optimisation and Seeding of Decellularised Human Saphenous Veins",

abstract = "Functional endothelial cells (EC) are a critical interface between blood vessels and the thrombogenic flowing blood. Disruption of this layer can lead to early thrombosis, inflammation, vessel restenosis, and, following coronary (CABG) or peripheral (PABG) artery bypass graft surgery, vein graft failure. Blood-derived ECs have shown potential for vascular tissue engineering applications. Here, we show the development and preliminary testing of a method for deriving porcine endothelial-like cells from blood obtained under clinical conditions for use in translational research. The derived cells show cobblestone morphology and expression of EC markers, similar to those seen in isolated porcine aortic ECs (PAEC), and when exposed to increasing shear stress, they remain viable and show mRNA expression of EC markers similar to PAEC. In addition, we confirm the feasibility of seeding endothelial-like cells onto a decellularised human vein scaffold with approximately 90% lumen coverage at lower passages, and show that increasing cell passage results in reduced endothelial coverage.",

author = "Bond, {Andrew R} and Bruno, {Vito Domenico} and Johnson, {Jason L} and George, {Sarah J} and Raimondo Ascione",

note = "Funding Information: This research was funded by a Project Grant awarded by the British Heart Foundation (BHF) PG/104/32652) to Ascione. In addition, this work was enhanced by BHF and Medical Research Council (MRC) grants to Ascione (BHF IG/14/2/30991, MRC MR/L012723/1). Publisher Copyright: {\textcopyright} 2022 by the authors. Licensee MDPI, Basel, Switzerland.",

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Bond, AR, Bruno, VD, Johnson, JL , George, SJ & Ascione, R 2022, 'Development and Preliminary Testing of Porcine Blood-Derived Endothelial-like Cells for Vascular Tissue Engineering Applications: Protocol Optimisation and Seeding of Decellularised Human Saphenous Veins', International Journal of Molecular Sciences, vol. 23, no. 12, 6633, pp. 1-22. https://doi.org/10.3390/ijms23126633

Development and Preliminary Testing of Porcine Blood-Derived Endothelial-like Cells for Vascular Tissue Engineering Applications: Protocol Optimisation and Seeding of Decellularised Human Saphenous Veins. / Bond, Andrew R; Bruno, Vito Domenico; Johnson, Jason L et al.
In: International Journal of Molecular Sciences, Vol. 23, No. 12, 6633, 14.06.2022, p. 1-22.

Research output: Contribution to journal › Article (Academic Journal) › peer-review

TY - JOUR

T1 - Development and Preliminary Testing of Porcine Blood-Derived Endothelial-like Cells for Vascular Tissue Engineering Applications

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AU - Bruno, Vito Domenico

AU - Johnson, Jason L

AU - George, Sarah J

AU - Ascione, Raimondo

N1 - Funding Information: This research was funded by a Project Grant awarded by the British Heart Foundation (BHF) PG/104/32652) to Ascione. In addition, this work was enhanced by BHF and Medical Research Council (MRC) grants to Ascione (BHF IG/14/2/30991, MRC MR/L012723/1). Publisher Copyright: © 2022 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2022/6/14

Y1 - 2022/6/14

N2 - Functional endothelial cells (EC) are a critical interface between blood vessels and the thrombogenic flowing blood. Disruption of this layer can lead to early thrombosis, inflammation, vessel restenosis, and, following coronary (CABG) or peripheral (PABG) artery bypass graft surgery, vein graft failure. Blood-derived ECs have shown potential for vascular tissue engineering applications. Here, we show the development and preliminary testing of a method for deriving porcine endothelial-like cells from blood obtained under clinical conditions for use in translational research. The derived cells show cobblestone morphology and expression of EC markers, similar to those seen in isolated porcine aortic ECs (PAEC), and when exposed to increasing shear stress, they remain viable and show mRNA expression of EC markers similar to PAEC. In addition, we confirm the feasibility of seeding endothelial-like cells onto a decellularised human vein scaffold with approximately 90% lumen coverage at lower passages, and show that increasing cell passage results in reduced endothelial coverage.

AB - Functional endothelial cells (EC) are a critical interface between blood vessels and the thrombogenic flowing blood. Disruption of this layer can lead to early thrombosis, inflammation, vessel restenosis, and, following coronary (CABG) or peripheral (PABG) artery bypass graft surgery, vein graft failure. Blood-derived ECs have shown potential for vascular tissue engineering applications. Here, we show the development and preliminary testing of a method for deriving porcine endothelial-like cells from blood obtained under clinical conditions for use in translational research. The derived cells show cobblestone morphology and expression of EC markers, similar to those seen in isolated porcine aortic ECs (PAEC), and when exposed to increasing shear stress, they remain viable and show mRNA expression of EC markers similar to PAEC. In addition, we confirm the feasibility of seeding endothelial-like cells onto a decellularised human vein scaffold with approximately 90% lumen coverage at lower passages, and show that increasing cell passage results in reduced endothelial coverage.

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M1 - 6633

ER -

Development and Preliminary Testing of Porcine Blood-Derived Endothelial-like Cells for Vascular Tissue Engineering Applications: Protocol Optimisation and Seeding of Decellularised Human Saphenous Veins

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