Faculty Opinions recommendation of Neural Tube Development Depends on Notochord-Derived Sonic Hedgehog Released Into the Sclerotome

The vertebrate zinc finger genes of the Gli family are homologs of the Drosophila gene cubitus interruptus. In frog embryos, Gli1 is expressed transiently in the prospective floor plate during gastrulation and in cells lateral to the midline during late gastrula and neurula stages. In contrast, Gli2 and Gli3 are absent from the neural plate midline with Gli2 expressed widely and Gli3 in a graded fashion with highest levels in lateral regions. In mouse embryos, the three Gli genes show a similar pattern of expression in the neural tube but are coexpressed throughout the early neural plate. Because Gli1 is the only Gli gene expressed in prospective floor plate cells of frog embryos, we have investigated a possible involvement of this gene in ventral neural tube development. Here we show that Shh signaling activates Gli1 transcription and that widespread expression of endogenous frog or human glioma Gli1, but not Gli3, in developing frog embryos results in the ectopic differentiation of floor plate cells and ventral neurons within the neural tube. Floor-plate-inducing ability is retained when cytoplasmic Gli1 proteins are forced into the nucleus or are fused to the VP16 transactivating domain. Thus, our results identify Gli1 as a midline target of Shh and suggest that it mediates the induction of floor plate cells and ventral neurons by Shh acting as a transcriptional regulator.

Download Full-text

Neural tube development depends on notochord-derived Sonic hedgehog released into the sclerotome

10.1101/639831 ◽

2019 ◽

Author(s):

Nitza Kahane ◽

Chaya Kalcheim

Keyword(s):

Sonic Hedgehog ◽

Neural Tube ◽

Direct Consequence ◽

Floor Plate ◽

Neural Progenitors ◽

Interacting Protein ◽

Potential Site ◽

Summary Statement ◽

Neural Tube Development ◽

Mesodermal Development

AbstractSonic hedgehog (Shh), produced in notochord and floor plate, is necessary both for neural and mesodermal development. To reach the myotome, Shh has to traverse the sclerotome. By loss and gain of Shh function, and floor plate deletions, we report that sclerotomal Shh is also necessary for neural tube development. Reducing the amount of Shh in sclerotome by membrane-tethered hedgehog-interacting protein or by Patched1, but not by dominant active Patched, decreased motoneuron numbers while also compromising myotome differentiation. These effects were a specific and direct consequence of reducing Shh. In addition, grafting notochords in a basal, but not apical location vis-a-vis the tube, profoundly affected motoneuron development, suggesting that initial ligand presentation occurs at the basal side of epithelia corresponding to the sclerotome-neural tube interface.Collectively, our results reveal that the sclerotome is a potential site of a Shh gradient that coordinates development of mesodermal and neural progenitors.Summary statementShh that transits through the sclerotome is presented to the neuroepithelium from its basal aspect to affect motoneuron development.

Download Full-text