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Literature DB >> 25849919

Wnt acylation and its functional implication in Wnt signalling regulation.

Claudia Y Janda¹, K Christopher Garcia¹.

Abstract

Wnt proteins are conserved signalling molecules that have an essential role in regulating diverse processes during embryogenesis and adult tissue homoeostasis. Wnts are post-translationally modified by palmitoylation, which is essential for Wnt secretion and function. Intriguingly, the crystal structure of XWnt8 in complex with the extracellular domain of the Frizzled 8 cysteine-rich domain (Fzd8-CRD) revealed that Wnts use the fatty acid as a 'hotspot' residue to engage its receptor, which is a unique mode of receptor-ligand recognition. In addition, there are several lines of evidence suggesting that Wnts engage several signalling modulators and alternative receptors by means of fatty acids as a critical contact residue. In the present article, we review our current understanding of Wnt acylation and its functional role in Wnt signalling regulation.

Entities: Chemical

Mesh：

Substances：

Year: 2015 PMID： 25849919 PMCID： PMC4445369 DOI： 10.1042/BST20140249

Source DB: PubMed Journal: Biochem Soc Trans ISSN： 0300-5127 Impact factor: 5.407

45 in total

Review 1. Wnt/β-catenin signaling and disease.

Authors: Hans Clevers; Roel Nusse
Journal: Cell Date: 2012-06-08 Impact factor: 41.582

2. Canonical and noncanonical Wnts use a common mechanism to activate completely unrelated coreceptors.

Authors: Luca Grumolato; Guizhong Liu; Phyllus Mong; Raksha Mudbhary; Romi Biswas; Randy Arroyave; Sapna Vijayakumar; Aris N Economides; Stuart A Aaronson
Journal: Genes Dev Date: 2010-11-15 Impact factor: 11.361

3. Secreted Frizzled-related protein-2 (sFRP2) augments canonical Wnt3a-induced signaling.

Authors: Zofia von Marschall; Larry W Fisher
Journal: Biochem Biophys Res Commun Date: 2010-08-17 Impact factor: 3.575

4. Diverse chemical scaffolds support direct inhibition of the membrane-bound O-acyltransferase porcupine.

Authors: Michael E Dodge; Jesung Moon; Rubina Tuladhar; Jianming Lu; Leni S Jacob; Li-shu Zhang; Heping Shi; Xiaolei Wang; Enrico Moro; Alessandro Mongera; Francesco Argenton; Courtney M Karner; Thomas J Carroll; Chuo Chen; James F Amatruda; Lawrence Lum
Journal: J Biol Chem Date: 2012-05-15 Impact factor: 5.157

5. Secreted Frizzled-related proteins enhance the diffusion of Wnt ligands and expand their signalling range.

Authors: Yusuke Mii; Masanori Taira
Journal: Development Date: 2009-11-11 Impact factor: 6.868

6. FZD4S, a splicing variant of frizzled-4, encodes a soluble-type positive regulator of the WNT signaling pathway.

Authors: N Sagara; H Kirikoshi; H Terasaki; Y Yasuhiko; G Toda; K Shiokawa; M Katoh
Journal: Biochem Biophys Res Commun Date: 2001-04-06 Impact factor: 3.575

7. Wnt pathway inhibition via the targeting of Frizzled receptors results in decreased growth and tumorigenicity of human tumors.

Authors: Austin Gurney; Fumiko Axelrod; Christopher J Bond; Jennifer Cain; Cecile Chartier; Lucas Donigan; Marcus Fischer; Aurélie Chaudhari; May Ji; Ann M Kapoun; Andrew Lam; Sasha Lazetic; Shirley Ma; Satyajit Mitra; In-Kyung Park; Kellie Pickell; Aaron Sato; Sanjeev Satyal; Michelle Stroud; Hoang Tran; Wan-Ching Yen; John Lewicki; Timothy Hoey
Journal: Proc Natl Acad Sci U S A Date: 2012-07-02 Impact factor: 11.205

8. Modular mechanism of Wnt signaling inhibition by Wnt inhibitory factor 1.

Authors: Tomas Malinauskas; A Radu Aricescu; Weixian Lu; Christian Siebold; E Yvonne Jones
Journal: Nat Struct Mol Biol Date: 2011-07-10 Impact factor: 15.369

9. Structural basis of Wnt recognition by Frizzled.

Authors: Claudia Y Janda; Deepa Waghray; Aron M Levin; Christoph Thomas; K Christopher Garcia
Journal: Science Date: 2012-05-31 Impact factor: 47.728

10. Structural architecture and functional evolution of Wnts.

Authors: J Fernando Bazan; Claudia Y Janda; K Christopher Garcia
Journal: Dev Cell Date: 2012-08-14 Impact factor: 12.270

15 in total

1. The crystal structure of full-length Sizzled from Xenopus laevis yields insights into Wnt-antagonistic function of secreted Frizzled-related proteins.

Authors: Qixin Bu; Zhiqiang Li; Junying Zhang; Fei Xu; Jianmei Liu; Heli Liu
Journal: J Biol Chem Date: 2017-08-14 Impact factor: 5.157

2. Non-acylated Wnts Can Promote Signaling.

Authors: Kelsey F Speer; Anselm Sommer; Benjamin Tajer; Mary C Mullins; Peter S Klein; Mark A Lemmon
Journal: Cell Rep Date: 2019-01-22 Impact factor: 9.423

3. Stereoselective fatty acylation is essential for the release of lipidated WNT proteins from the acyltransferase Porcupine (PORCN).

Authors: Rubina Tuladhar; Nageswari Yarravarapu; Yuyong Ma; Chengwei Zhang; Jeremiah Herbert; James Kim; Chuo Chen; Lawrence Lum
Journal: J Biol Chem Date: 2019-02-08 Impact factor: 5.157

4. An in vitro fatty acylation assay reveals a mechanism for Wnt recognition by the acyltransferase Porcupine.

Authors: James J Asciolla; Matthew M Miele; Ronald C Hendrickson; Marilyn D Resh
Journal: J Biol Chem Date: 2017-06-27 Impact factor: 5.157

5. ROR and RYK extracellular region structures suggest that receptor tyrosine kinases have distinct WNT-recognition modes.

Authors: Fumin Shi; Jeannine M Mendrola; Joshua B Sheetz; Neo Wu; Anselm Sommer; Kelsey F Speer; Jasprina N Noordermeer; Zhong-Yuan Kan; Kay Perry; S Walter Englander; Steven E Stayrook; Lee G Fradkin; Mark A Lemmon
Journal: Cell Rep Date: 2021-10-19 Impact factor: 9.423