Stability and association of Smoothened, Costal2 and Fused with Cubitus interruptus are regulated by Hedgehog.

The mechanisms involved in transduction of the Hedgehog (Hh) signal are of considerable interest to developmental and cancer biologists. Stabilization of the integral membrane protein Smoothened (Smo) at the plasma membrane is a crucial step in Hh signalling but the molecular events immediately downstream of Smo remain to be elucidated. We have shown previously that the transcriptional mediator Cubitus interruptus (Ci) is associated in a protein complex with at least two other proteins, the kinesin-like Costal2 (Cos2) and the serine-threonine kinase Fused (Fu). This protein complex governs the access of Ci to the nucleus. Here we show that, consequent on the stabilization of Smo, Cos2 and Fu are destabilized. Moreover, we find that the Cos2-Fu-Ci protein complex is associated with Smo in membrane fractions both in vitro and in vivo. We also show that Cos2 binding on Smo is necessary for the Hh-dependent dissociation of Ci from this complex. We propose that the association of the Cos2 protein complex with Smo at the plasma membrane controls the stability of the complex and allows Ci activation, eliciting its nuclear translocation.

Tow (Target of Wingless), a novel repressor of the Hedgehog pathway in Drosophila.

Hedgehog (Hh) signalling plays a crucial role in the development and patterning of many tissues in both vertebrates and invertebrates. Aberrations in this pathway lead to severe developmental defects and cancer. Hh signal transduction in receiving cells is a well studied phenomenon; however questions still remain concerning the mechanism of repression of the pathway activator Smoothened (Smo) in the absence of Hh. Here we describe a novel repressor of the Hh pathway, Target of Wingless (Tow). Tow represents the Drosophila homolog of a conserved uncharacterised protein family. We show that Tow acts in Hh receiving cells, where its overexpression represses all levels of Hh signalling, and that this repression occurs upstream or at the level of Smo and downstream of the Hh receptor Patched (Ptc). In addition, we find that like Ptc, overexpression of Tow causes an accumulation of lipophorin in the wing disc. We demonstrate that loss of tow enhances different ptc alleles in a similar manner to another pathway repressor, Suppressor of Fused (SuFu), possibly through mediating Ptc dependant lipophorin internalisation. Combined, these results demonstrate that Tow is an important novel regulator of the Hh pathway in the wing imaginal disc, and may shed light on the mechanism of Ptc repression of Smo.

Cholesterol modification of hedgehog is required for trafficking and movement, revealing an asymmetric cellular response to hedgehog.

Hedgehog family members are secreted proteins involved in numerous patterning mechanisms. Different posttranslational modifications have been shown to modulate Hedgehog biological activity. We investigated the role of these modifications in regulating subcellular localization of Hedgehog in the Drosophila embryonic epithelium. We demonstrate that cholesterol modification of Hedgehog is responsible for its assembly in large punctate structures and apical sorting through the activity of the sterol-sensing domain-containing Dispatched protein. We further show that movement of these specialized structures through the cellular field is contingent upon the activity of proteoglycans synthesized by the heparan sulfate polymerase Tout-Velu. Finally, we show that the Hedgehog large punctate structures are necessary only for a subset of Hedgehog target genes across the parasegmental boundary, suggesting that presentation of Hedgehog from different membrane compartments is responsible for Hedgehog functional diversity in epithelial cells.