Abstract
Although members of the Hedgehog (Hh) family were initially described as morphogens, many of these early conclusions were based on experiments that used non-physiologically relevant forms of Hh. Native Hh is modified by cholesterol (HhNp) and palmitate. These hydrophobic modifications are responsible for the ability of Hh to associate with cellular membranes, a property that initially appeared inconsistent with its ability to act far from its site of synthesis. Although it is now clear that Hh family members are capable of acting directly in long-range signaling, the form of Hh capable of this activity remains controversial. We have previously provided evidence for a freely diffusible multimeric form of Sonic Hedgehog (Shh) termed s-ShhNp, which is capable of accumulating in a gradient fashion through a morphogenic field. Here, we provide further evidence that s-ShhNp is the physiologically relevant form of Shh. We show that the biological activity of freely diffusible ShhNp resides in its multimeric form and that this multimeric form is exceedingly stable, even to high concentrations of salt and detergent. Furthermore, we now validate the Shh-Shh interactions previously observed in the crystal structure of human Shh, showing that a highly conserved amino-terminal domain of Shh is important for the formation of s-ShhNp. We also conclusively show that palmitoylation is required for s-ShhNp formation. Thus, our results identify both protein-protein and protein-lipid interactions that are required for s-ShhNp formation, and provide the first structural analyses supporting the existence of Shh multimers.
Highlights
The s-ShhNp complex is tightly associated, as high concentrations of either NaCl or Nonidet P-40 have little effect on its multimeric state, suggesting that multiple types of interactions are required to maintain this stability. Consistent with this suggestion, we show that s-ShhNp formation requires palmitoylation of ShhNp
We provide evidence, based on intermolecular interactions observed in the crystal structure of human ShhN [30], that s-ShhNp formation requires the presence of its highly conserved amino-terminal domain
Our results show that both protein-protein and protein-lipid interactions are required for s-ShhNp formation
Summary
The amino acid sequences of ten Hedgehog family members were aligned to highlight their conservation within an amino-terminal region. To test the hypothesis that the Shh-Shh crystal contacts observed in the human ShhN structure mimic those present in s-ShhNp, we mutated amino acids in this amino-terminal domain of Shh to perform a structure function analyses of s-ShhNp. Here, we provide evidence that large amounts of s-ShhNp can be produced from a stable cell line expressing full-length Shh under the control of an ecydysone-inducible promoter. We provide evidence that large amounts of s-ShhNp can be produced from a stable cell line expressing full-length Shh under the control of an ecydysone-inducible promoter This s-ShhNp is multimeric, highly active, and stable, remaining multimeric in the presence of high concentrations of salt and detergent. Our results provide the first evidence based on the structure of Shh for the existence of Shh multimers, supporting the biological relevance of s-ShhNp
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