The role of sonic hedgehog in vertebrate development.

Members of the hedgehog family are important signalling molecules during embryonic development. One member, Sonic hedgehog, is expressed in embryonic structures such as the zone of polarizing activity in the posterior limb bud, the notochord, and the floor plate of the neural tube, where it plays a role in patterning of the embryo. Sonic hedgehog is synthesized as an inactive precursor which must be proteolytically cleaved and modified by the addition of a cholesterol moiety to become active as a signalling molecule. In this processing, the C-terminal region of Sonic hedgehog serves as both the endoprotease and a cholesterol transferase. The importance of cholesterol for Sonic hedgehog function may explain many of the profound developmental defects caused by perturbations of cholesterol metabolism. The receptor for Sonic hedgehog is Patched, a multi-pass transmembrane protein which forms a complex with Smoothened Mutations in Patched are associated with basal cell naevus syndrome, while mutations in Sonic hedgehog cause holoprosencephaly. Downstream targets of Sonic hedgehog signalling are transcription factors like Gli3, responsible for Greigs polycephalosyndactyly in humans and Hoxd13, responsible for polysyndactyly.