Neural Glial Nuclei (IMAGE)

Morgridge Institute for Research

Neural Glial Nuclei

Caption

Modeling human brain development. Neural tissues were formed in standard 24-well Transwell inserts by growing human pluripotent stem cell-derived neural progenitor cells, endothelial cells (blood vessel cells), mesenchymal stem cells (blood vessel support cells), and microglia (brain-specific immune cells) on synthetic hydrogels. These cell types represent the major components of the developing brain and self-organize into highly complex vascularized neural tissues when assembled on synthetic matrices designed to promote initial cell adhesion and which can be remodeled through cell-induced degradation.

Shown: Confocal microscopy image illustrating neurons (green), glial cells (red), and nuclei (blue) within a developing neural construct. The neural tissues were removed from the inserts and placed on a glass bottom petri dish for imaging.

Credit

Michael Schwartz, Department of Biomedical Engineering, UW-Madison

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