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  • WLS-dependent secretion of WNT3A requires Ser209 acylation and vacuolar acidification.

WLS-dependent secretion of WNT3A requires Ser209 acylation and vacuolar acidification.

Journal of cell science (2010-09-10)
Gary S Coombs, Jia Yu, Claire A Canning, Charles A Veltri, Tracy M Covey, Jit K Cheong, Velani Utomo, Nikhil Banerjee, Zong Hong Zhang, Raquel C Jadulco, Gisela P Concepcion, Tim S Bugni, Mary Kay Harper, Ivana Mihalek, C Michael Jones, Chris M Ireland, David M Virshup
ABSTRACT

Wnt proteins are secreted post-translationally modified proteins that signal locally to regulate development and proliferation. The production of bioactive Wnts requires a number of dedicated factors in the secreting cell whose coordinated functions are not fully understood. A screen for small molecules identified inhibitors of vacuolar acidification as potent inhibitors of Wnt secretion. Inhibition of the V-ATPase or disruption of vacuolar pH gradients by diverse drugs potently inhibited Wnt/β-catenin signaling both in cultured human cells and in vivo, and impaired Wnt-regulated convergent extension movements in Xenopus embryos. WNT secretion requires its binding to the carrier protein wntless (WLS); we find that WLS is ER-resident in human cells and WNT3A binding to WLS requires PORCN-dependent lipid modification of WNT3A at serine 209. Inhibition of vacuolar acidification results in accumulation of the WNT3A-WLS complex both in cells and at the plasma membrane. Modeling predictions suggest that WLS has a lipid-binding β-barrel that is similar to the lipocalin-family fold. We propose that WLS binds Wnts in part through a lipid-binding domain, and that vacuolar acidification is required to release palmitoylated WNT3A from WLS in secretory vesicles, possibly to facilitate transfer of WNT3A to a soluble carrier protein.