cell bodies as well as their arrangement in colonies [18, 22]. Here,
we used rhodamine conjugated phalloidin according to the manu-
facturer’s manual for phallotoxins to characterize the colonized
scaffolds with respect to potentially formed endothelial layers.
1. Prepare the rhodamine staining solution freshly (0.1% rhoda-
mine phalloidin supplied stock diluted in PBS containing 1%
BSA and one drop per ml NucBlue reagent). The staining
Fig. 3 Exemplary images of rabbit endothelial progenitor cells (rbEPC) and human saphenous vein endothelial
cells (HSVEC) cultivated for 96 h on fibronectin coated bacterial nanocellulose vascular grafts. By histological
examination of the cell constructs, we found highly colonized areas with apparently preserved endothelial
functionality as indicated by AcLDL uptake. (a) Confocal microscopical image of CD31 stained HSVEC
indicating tight cell-cell junctions. (b) Confocal microscopical image showing the merge of AcLDL uptake
assay (green), Phalloidin (red), and NucBlue (blue) of rbEPC, indicating that the cells were functional intact and
expressed a distinct cytoskeleton. (c) Conventional fluorescence microscopy image of rbEPC after subjection
to AcLDL uptake assay. The presence of intracellular green AcLDL particles reflects a functional state of the
endothelial cells. (d) 3D-reconstruction of confocal microscopical image stack, displayed is the merge of
AcLDL uptake assay (green), Phalloidin (red), NucBlue (blue) of rbEPC. By 3D reconstruction, the morphology of
the EC layer can be estimated i.e., by the thickness and arrangement of stress fibers in the cytoskeleton. (e, f)
Images of acridine orange staining of rbEPC. (e) Magnification of whole cross-section (see rectangular region
of interest in f). (f) Cross-section through fibronectin coated BNC vascular graft. The acridine orange staining
allows to detect an overall graphical impression of the cell distribution on the luminal side of the graft, showing
more and less confluent areas
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