Engineered Wnt ligands enable blood-brain barrier repair in neurological disorders.
Maud MartinSimon VermeirenNaguissa BostailleMarie EubelenDaniel SpitzerMarjorie VermeerschCaterina P ProfaciElisa PozueloXavier ToussayJoanna Raman-NairPatricia TebabiMichelle AmericaAurélie De GrooteLeslie E SandersonPauline CabochetteRaoul F V GermanoDavid TorresSébastien BoutryAlban de Kerchove d'ExaerdeEric J BellefroidTimothy N PhoenixKavi DevrajBaptiste LacosteRichard DanemanStefan LiebnerBenoit VanhollebekePublished in: Science (New York, N.Y.) (2022)
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.