A central role for Numb/Nbl in multiple Shh-mediated axon repulsion processes

Abstract Sonic hedgehog (Shh) is an axon guidance molecule that can act as either a chemorepellent or a chemoattractant, depending on the neuron type and their developmental stage. In the developing spinal cord, Shh initially attracts commissural axons to the floor plate and later induces their repulsion after they cross the midline. In the developing visual system, Shh repels ipsilateral retinal ganglion cell (iRGC) axons at the optic chiasm. Although Shh requires the endocytic adaptor Numb for attraction of commissural neurons, the molecular mechanisms underlying Shh dual function in attraction and repulsion are still unclear. In this study, we investigate whether Numb also regulates repulsive axon guidance. We show that Numb is essential for two Shh-mediated repulsion processes: iRGC axon repulsion at the optic chiasm and antero-posterior commissural axon repulsion in the spinal cord. Therefore, Numb is required for Shh-mediated attraction and repulsion. These results position Numb as a central player in the non-canonical Shh signalling pathway mediating axon repulsion. Summary statement Here, we show that Numb is required for Shh-mediated midline repulsion of ipsilateral retinal ganglion cell axons and post-crossing commissural axons of the spinal cord.