A molecular mechanism for Wnt ligand-specific signaling

Marie Eubelen; Naguissa Bostaille; Pauline Cabochette; Anne Gauquier; Patricia Tebabi; Andra C. Dumitru; Melanie Koehler; Philipp Gut; David Alsteens; Didier Y.R. Stainier; Abel Garcia-Pino; Benoit Vanhollebeke

doi:10.1126/science.aat1178

A molecular mechanism for Wnt ligand-specific signaling

Marie Eubelen (Shared First Author)
, Naguissa Bostaille (Shared First Author)
, Pauline Cabochette (Co-Author)
, Anne Gauquier (Co-Author)
, Patricia Tebabi (Co-Author)
, Andra C. Dumitru (Co-Author)
, Melanie Koehler (Co-Author)
, Philipp Gut (Co-Author)
, David Alsteens (Co-Author)
, Didier Y.R. Stainier (Co-Author)
, Abel Garcia-Pino (Co-Author)
, Benoit Vanhollebeke^* (Last Author)

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

196 Scopus citations

Abstract

Wnt signaling is key to many developmental, physiological, and disease processes in which cells seem able to discriminate between multiple Wnt ligands. This selective Wnt recognition or "decoding" capacity has remained enigmatic because Wnt/Frizzled interactions are largely incompatible with monospecific recognition. Gpr124 and Reck enable brain endothelial cells to selectively respond to Wnt7.We show that Reck binds with low micromolar affinity to the intrinsically disordered linker region of Wnt7. Availability of Reck-bound Wnt7 for Frizzled signaling relies on the interaction between Gpr124 and Dishevelled. Through polymerization, Dishevelled recruits Gpr124 and the associated Reck-bound Wnt7 into dynamic Wnt/Frizzled/Lrp5/6 signalosomes, resulting in increased local concentrations of Wnt7 available for Frizzled signaling. This work provides mechanistic insights into the Wnt decoding capacities of vertebrate cells and unravels structural determinants of the functional diversification of Wnt family members.

Original language	English
Article number	663
Journal	Science
Volume	361
Issue number	6403
DOIs	https://doi.org/10.1126/science.aat1178
State	Published - 17 Aug 2018
Externally published	Yes

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title = "A molecular mechanism for Wnt ligand-specific signaling",

abstract = "Wnt signaling is key to many developmental, physiological, and disease processes in which cells seem able to discriminate between multiple Wnt ligands. This selective Wnt recognition or {"}decoding{"} capacity has remained enigmatic because Wnt/Frizzled interactions are largely incompatible with monospecific recognition. Gpr124 and Reck enable brain endothelial cells to selectively respond to Wnt7.We show that Reck binds with low micromolar affinity to the intrinsically disordered linker region of Wnt7. Availability of Reck-bound Wnt7 for Frizzled signaling relies on the interaction between Gpr124 and Dishevelled. Through polymerization, Dishevelled recruits Gpr124 and the associated Reck-bound Wnt7 into dynamic Wnt/Frizzled/Lrp5/6 signalosomes, resulting in increased local concentrations of Wnt7 available for Frizzled signaling. This work provides mechanistic insights into the Wnt decoding capacities of vertebrate cells and unravels structural determinants of the functional diversification of Wnt family members.",

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doi = "10.1126/science.aat1178",

language = "English",

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AU - Eubelen, Marie

AU - Bostaille, Naguissa

AU - Cabochette, Pauline

AU - Gauquier, Anne

AU - Tebabi, Patricia

AU - Dumitru, Andra C.

AU - Koehler, Melanie

AU - Gut, Philipp

AU - Alsteens, David

AU - Stainier, Didier Y.R.

AU - Garcia-Pino, Abel

AU - Vanhollebeke, Benoit

PY - 2018/8/17

Y1 - 2018/8/17

N2 - Wnt signaling is key to many developmental, physiological, and disease processes in which cells seem able to discriminate between multiple Wnt ligands. This selective Wnt recognition or "decoding" capacity has remained enigmatic because Wnt/Frizzled interactions are largely incompatible with monospecific recognition. Gpr124 and Reck enable brain endothelial cells to selectively respond to Wnt7.We show that Reck binds with low micromolar affinity to the intrinsically disordered linker region of Wnt7. Availability of Reck-bound Wnt7 for Frizzled signaling relies on the interaction between Gpr124 and Dishevelled. Through polymerization, Dishevelled recruits Gpr124 and the associated Reck-bound Wnt7 into dynamic Wnt/Frizzled/Lrp5/6 signalosomes, resulting in increased local concentrations of Wnt7 available for Frizzled signaling. This work provides mechanistic insights into the Wnt decoding capacities of vertebrate cells and unravels structural determinants of the functional diversification of Wnt family members.

AB - Wnt signaling is key to many developmental, physiological, and disease processes in which cells seem able to discriminate between multiple Wnt ligands. This selective Wnt recognition or "decoding" capacity has remained enigmatic because Wnt/Frizzled interactions are largely incompatible with monospecific recognition. Gpr124 and Reck enable brain endothelial cells to selectively respond to Wnt7.We show that Reck binds with low micromolar affinity to the intrinsically disordered linker region of Wnt7. Availability of Reck-bound Wnt7 for Frizzled signaling relies on the interaction between Gpr124 and Dishevelled. Through polymerization, Dishevelled recruits Gpr124 and the associated Reck-bound Wnt7 into dynamic Wnt/Frizzled/Lrp5/6 signalosomes, resulting in increased local concentrations of Wnt7 available for Frizzled signaling. This work provides mechanistic insights into the Wnt decoding capacities of vertebrate cells and unravels structural determinants of the functional diversification of Wnt family members.

UR - https://www.scopus.com/pages/publications/85051692366

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DO - 10.1126/science.aat1178

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SN - 0036-8075

VL - 361

JO - Science

JF - Science

IS - 6403

M1 - 663

ER -

A molecular mechanism for Wnt ligand-specific signaling

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