Direct differentiation of human pluripotent stem cells into vascular network along with supporting mural cells

Author(s): Bertucci, T; Kakarla, S; Winkelman, MA; Lane, K; Stevens, K; Lotz, S; Grath, A; James, D; Temple, S; Dai, G;
Year: 2023;  
Journal: APL bioengineering;  
Volume: 7;  
Issue: 3;  
Abstract:

During embryonic development, endothelial cells (ECs) undergo vasculogenesis to form a primitive plexus and assemble into networks comprised of mural cell-stabilized vessels with molecularly distinct artery and vein signatures. This organized vasculature is established prior to the initiation of blood flow and depends on a sequence of complex signaling events elucidated primarily in animal models, but less studied and understood in humans. Here, we have developed a simple vascular differentiation protocol for human pluripotent stem cells that generates ECs, pericytes, and smooth muscle cells simultaneously. When this protocol is applied in a 3D hydrogel, we demonstrate that it recapitulates the dynamic processes of early human vessel formation, including acquisition of distinct arterial and venous fates, resulting in a vasculogenesis angiogenesis model plexus (VAMP). The VAMP captures the major stages of vasculogenesis, angiogenesis, and vascular network formation and is a simple, rapid, scalable model system for studying early human vascular development in vitro.