Transient Support from Fibroblasts is Sufficient to Drive Functional Vascularization in Engineered Tissues

PUBLICATION TYPE:

Journal Article

AUTHORS:

Hyun-Ho Greco Song, Alex Lammers, Subramanian Sundaram, Logan Rubio, Amanda X. Chen, Linqing Li, Jeroen Eyckmans, Sangeeta N. Bhatia, and Christopher S. Chen*

SOURCE:

Advanced Functional Materials (2021)

URL:

https://pubmed.ncbi.nlm.nih.gov/33613149/

ABSTRACT:

Formation of capillary blood vasculature is a critical requirement for native as well as engineered organs and can be induced in vitro by co-culturing endothelial cells with fibroblasts. However, whether these fibroblasts are required only in the initial morphogenesis of endothelial cells or needed throughout is unknown, and the ability to remove these stromal cells after assembly could be useful for clinical translation. In this study, we introduce a technique termed CAMEO (Controlled Apoptosis in Multicellular Tissues for Engineered Organogenesis), whereby fibroblasts are selectively ablated on demand, and utilize it to probe the dispensability of fibroblasts in vascular morphogenesis. The presence of fibroblasts is shown to be necessary only during the first few days of endothelial cell morphogenesis, after which they can be ablated without significantly affecting the structural and functional features of the developed vasculature. Furthermore, we demonstrate the use of CAMEO to vascularize a construct containing primary human hepatocytes that improved tissue function. In conclusion, this study suggests that transient, initial support from fibroblasts is sufficient to drive vascular morphogenesis in engineered tissues, and this strategy of engineering-via-elimination may provide a new general approach for achieving desired functions and cell compositions in engineered organs.

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