Structural insights into hedgehog ligand sequestration by the human hedgehog-interacting protein HIP

Hedgehog (Hh) morphogens play fundamental roles in development whilst dysregulation of Hh signaling leads to disease. Multiple cell surface receptors are responsible for transducing and/or regulating Hh signals. Among these, the hedgehog-interacting protein (HIP) is a highly conserved, vertebrate-specific, inhibitor of Hh signaling. We have solved a series of crystal structures for the human HIP ectodomain and Desert Hh in isolation, as well as Sonic and Desert Hh-HIP complexes, with and without calcium. The interaction determinants, confirmed by biophysical studies and mutagenesis, reveal novel and distinct functions for Hh zinc- and calcium-binding sites; functions which appear common to all vertebrate Hhs. Zinc makes a key contribution to the Hh-HIP interface while calcium prevents electrostatic repulsion between the two proteins, thus playing a major modulatory role. This interplay of several metal-binding sites suggests a tuneable mechanism for regulation of Hh signaling.