Self‐Organization of Long‐Lasting Human Endothelial Capillary‐Like Networks Guided by DLP Bioprinting

Author:

Mazari‐Arrighi Elsa12,Lépine Matthieu12ORCID,Ayollo Dmitry12ORCID,Faivre Lionel12ORCID,Larghero Jérôme12ORCID,Chatelain François13ORCID,Fuchs Alexandra13ORCID

Affiliation:

1. Université de Paris U976 HIPI, Inserm Paris F‐75006 France

2. AP‐HP Hôpital Saint‐Louis 1 avenue Vellefaux Paris F‐75010 France

3. CEA IRIG Grenoble F‐38000 France

Abstract

AbstractTissue engineering holds great promise for regenerative medicine, drug discovery, and as an alternative to animal models. However, as soon as the dimensions of engineered tissue exceed the diffusion limit of oxygen and nutriments, a necrotic core forms leading to irreversible damage. To overcome this constraint, the establishment of a functional perfusion network is essential. In this work, digital light processing bioprinting is used to encapsulate endothelial progenitor cells (EPCs) in 3D light‐cured hydrogel scaffolds to guide them toward vascular network formation. In these scaffolds, EPCs proliferate and self‐organize within a few days into branched tubular structures with predefined geometry, forming capillary‐like vascular tubes or trees of diameters in the range of 10 to 100 µm. Presenting a confluent monolayer wall of cells strongly connect by tight junctions around a central lumen‐like space, these structures can be microinjected with a fluorescent dye and are stable for several weeks in vitro. These endothelial structures can be recovered and manipulated in an alginate patch without altering their shape or viability. This approach opens new opportunities for future applications, such as stacking with other cell sheets or multicellular constructs to yield bioengineered tissue with higher complexity and functionality.

Funder

Agence Nationale de la Recherche

Publisher

Wiley

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