Photochemical control of biohybrid matrices to reconstitute nervous system organization from three-dimensional neural organoids
01.04.2018 – 31.03.2022
The in vitro formation of three-dimensional tissues from stem cells, termed, organoids, have had a profound impact on several areas of research including developmental biology, disease modelling, toxicology, and regenerative medicine. Currently most organoid systems involve the random morphogenesis of the organoid within a complex, ill-defined extracellular matrix gel called Matrigel that limits reproducibility and controllability of organoid formation. The applicants have developed a tunable PEG-hydrogel system for
the controllable growth of neural and intestinal organoids. Complete reconstitution of neural tissue involves the specification of neuronal progenitors, axonal outgrowth in defined patterns, and generation of peripheral nervous system from neural crest. The aim of this proposal is to develop hydrogels with photochemically cleavable linkages for the spatial and temporal control of stiffness and protein activity. This will be used to control the time and location of axonal outgrowth from the neural organoids, as well as neural crest
emigration and dorsal root ganglion formation.
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