Marie Eubelen scite author profile

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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Engineered Wnt ligands enable blood-brain barrier repair in neurological disorders

Martin

Vermeiren

Bostaille

et al. 2022

Science

106

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The blood-brain barrier (BBB) protects the central nervous system (CNS) from harmful blood-borne factors. Although BBB dysfunction is a hallmark of several neurological disorders, therapies to restore BBB function are lacking. An attractive strategy is to repurpose developmental BBB regulators, such as Wnt7a, into BBB-protective agents. However, safe therapeutic use of Wnt ligands is complicated by their pleiotropic Frizzled signaling activities. Taking advantage of the Wnt7a/b-specific Gpr124/Reck co-receptor complex, we genetically engineered Wnt7a ligands into BBB-specific Wnt activators. In a “hit-and-run” adeno-associated virus–assisted CNS gene delivery setting, these new Gpr124/Reck-specific agonists protected BBB function, thereby mitigating glioblastoma expansion and ischemic stroke infarction. This work reveals that the signaling specificity of Wnt ligands is adjustable and defines a modality to treat CNS disorders by normalizing the BBB.

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A molecular mechanism for Wnt ligand-specific signaling

Eubelen¹,

Bostaille²,

Cabochette³

et al. 2018

Front. Neurosci.

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An integrated model for Gpr124 function in Wnt7a/b signaling among vertebrates

et al. 2022

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Marie Eubelen

A molecular mechanism for Wnt ligand-specific signaling

Engineered Wnt ligands enable blood-brain barrier repair in neurological disorders

A molecular mechanism for Wnt ligand-specific signaling

An integrated model for Gpr124 function in Wnt7a/b signaling among vertebrates

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