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A Transwell-Based Vascularized Model to Investigate the Effect of Interstitial Flow on Vasculogenesis.

Authors :
Deng P
Zhao M
Zhang X
Qin J
Source :
Bioengineering (Basel, Switzerland) [Bioengineering (Basel)] 2022 Nov 08; Vol. 9 (11). Date of Electronic Publication: 2022 Nov 08.
Publication Year :
2022

Abstract

Interstitial flow plays a significant role in vascular system development, mainly including angiogenesis and vasculogenesis. However, compared to angiogenesis, the effect of interstitial flow on vasculogenesis is less explored. Current in vitro models for investigating the effect of interstitial flow on vasculogenesis heavily rely on microfluidic chips, which require microfluidic expertise and facilities, and may not be accessible to biological labs. Here, we proposed a facile approach to building perfusable vascular networks through the self-assembly of endothelial cells in a modified transwell format and investigated the effect of interstitial flow on vasculogenesis. We found that the effect of interstitial flow on vasculogenesis was closely related to the existence of VEGF and fibroblasts in the developed model: (1) In the presence of fibroblasts, interstitial flow (within the range of 0.1-0.6 μm/s) facilitated the perfusability of the engineered vasculatures. Additional VEGF in the culture medium further worked synergically with interstitial flow to develop longer, wider, denser, and more perfusable vasculatures than static counterparts; (2) In the absence of fibroblasts, vasculatures underwent severe regression within 7 days under static conditions. However, interstitial flow greatly inhibited vessel regression and enhanced vascular perfusability and morphogenesis without the need for additional VEGF. These results revealed that the effect of interstitial flow might vary depending on the existence of VEGF and fibroblasts, and would provide some guidelines for constructing in vitro self-assembled vasculatures. The established transwell-based vascularized model provides a simple method to build perfusable vasculatures and could also be utilized for creating functional tissues in regenerative medicine.

Details

Language :
English
ISSN :
2306-5354
Volume :
9
Issue :
11
Database :
MEDLINE
Journal :
Bioengineering (Basel, Switzerland)
Publication Type :
Academic Journal
Accession number :
36354579
Full Text :
https://doi.org/10.3390/bioengineering9110668