Jimenez-Jimenez, C.; Aguilar, G.; Fernandez-Pardo, C.; Affolter, M.; Guerrero, I.

The establishment of morphogen gradients is fundamental during embryonic patterning. Yet, the mechanisms by which morphogens disperse remain highly controversial. In a paradigmatic example, the dispersal of the morphogen Hedgehog (Hh) is both limited by, and dependent on, its lipid modifications. To address this paradox, several competing transport models have been proposed, from lipid-shielding solubilizing factors to the transport via specialized filopodia called cytonemes. In this study we uncover that the lipid-shielding protein DmWif1/Shifted (Shf) participates in the contact-dependent cell transfer of Hh. By using nanobody-based immobilization we demonstrate the tight association of Shf and Hh to cytoneme membranes. We show that Shf is anchored to membranes by the Hh co-receptor Interference Hedgehog (Ihog), and that the Ihog-Shf complex is required for Hh dispersal and signaling. Together, our results syncretize cytoneme-mediated transport and membrane release in a single dispersal model, in which local solubilization is required for cytonemes to exchange Hh-bound Shf at cell-cell contacts between presenting and receiving cytonemes.