Role of PATJ in stroke prognosis by modulating endothelial to mesenchymal transition through the Hippo/Notch/PI3K axis

Aina Medina-Dols, Guillem Cañellas, Toni Capó, Montserrat Solé Piñol, Marina Mola-Caminal, Natalia Cullell, Marina Jaume, Laura Nadal-Salas, Jaume Llinàs, Lluis Gómez, Silvia Tur, Carmen Jiménez, Rosa M. Díaz, Caty Carrera, Elena Muiño, Cristina Gallego-Fabrega, Carolina Soriano Tárraga, Laura Ruiz-Guerra, Josep Pol-Fuster, Víctor AsensioJosep Muncunill Farreny, Aarne Fleischer, Amanda Iglesias, Eva Giralt Steinhauer, Uxue Lazcano, Isabel Fernández-Pérez, Joan Jiménez-Balado, Marina Gabriel Salazar, Miguel García-Gabilondo, Ting Lei, Nuria P.. Torres-Aguila, Jara Cárcel-Márquez, Jerònia Lladó, Gabriel Olmos, Anna Rosell Novel, Joan Montaner, Anna Maria Planas, Raquel Rabionet, Maria Mar Hernandez Guillamon, Jordi Jimenez-Conde, Israel Fernandez-Cadenas, Cristòfol Vives-Bauzá

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2 Citations (Scopus)

Abstract

Through GWAS studies we identified PATJ associated with functional outcome after ischemic stroke (IS). The aim of this study was to determine PATJ role in brain endothelial cells (ECs) in the context of stroke outcome. PATJ expression analyses in patient's blood revealed that: (i) the risk allele of rs76221407 induces higher expression of PATJ, (ii) PATJ is downregulated 24 h after IS, and (iii) its expression is significantly lower in those patients with functional independence, measured at 3 months with the modified Rankin scale ((mRS) ≤2), compared to those patients with marked disability (mRS = 4-5). In mice brains, PATJ was also downregulated in the injured hemisphere at 48 h after ischemia. Oxygen-glucose deprivation and hypoxia-dependent of Hypoxia Inducible Factor-1α also caused PATJ depletion in ECs. To study the effects of PATJ downregulation, we generated PATJ -knockdown human microvascular ECs. Their transcriptomic profile evidenced a complex cell reprogramming involving Notch, TGF-ß, PI3K/Akt, and Hippo signaling that translates in morphological and functional changes compatible with endothelial to mesenchymal transition (EndMT). PATJ depletion caused loss of cell-cell adhesion, upregulation of metalloproteases, actin cytoskeleton remodeling, cytoplasmic accumulation of the signal transducer C-terminal transmembrane Mucin 1 (MUC1-C) and downregulation of Notch and Hippo signaling. The EndMT phenotype of PATJ-depleted cells was associated with the nuclear recruitment of MUC1-C, YAP/TAZ, β-catenin, and ZEB1. Our results suggest that PATJ downregulation 24 h after IS promotes EndMT, an initial step prior to secondary activation of a pro-angiogenic program. This effect is associated with functional independence suggesting that activation of EndMT shortly after stroke onset is beneficial for stroke recovery.
Original languageEnglish
Article number85
JournalCell Death Discovery
Volume10
Issue number1
DOIs
Publication statusPublished - 17 Feb 2024

Keywords

  • Blood-brain barrier
  • Epithelial-mesenchymal transition
  • Mechanisms of disease

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