Notch controls urothelial integrity in the mouse bladder
Varvara Paraskevopoulou, … , Ioannis S. Pateras, Apostolos Klinakis
Varvara Paraskevopoulou, … , Ioannis S. Pateras, Apostolos Klinakis
Published February 13, 2020
Citation Information: JCI Insight. 2020;5(3):e133232. https://doi.org/10.1172/jci.insight.133232.
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Research Article Cell biology

Notch controls urothelial integrity in the mouse bladder

Abstract

The Notch signaling pathway mediates cell-cell communication regulating cell differentiation and proliferation and cell fate decisions in various tissues. In the urinary bladder, Notch acts as a tumor suppressor in mice, while mutations in Notch pathway components have been identified in human bladder cancer as well. Here we report that the genetic inactivation of Notch in mice leads to downregulation of cell-cell and cell-ECM interaction components, including proteins previously implicated in interstitial cystitis/bladder pain syndrome (IC/BPS), structural defects and mucosal sloughing, inflammation, and leaky urine-blood barrier. Molecular profiling of ailing mouse bladders showed similarities with IC/BPS patient tissue, which also presented low Notch pathway activity as indicated by reduced expression of canonical Notch targets. Urothelial integrity was reconstituted upon exogenous reactivation of the Notch pathway, implying a direct involvement of Notch. Despite damage and inflammation, urothelial cells failed to proliferate, uncovering a possible role for α4 integrin in urothelial homeostasis. Our data uncover a broad role for Notch in bladder homeostasis involving urothelial cell crosstalk with the microenvironment.

Authors

Varvara Paraskevopoulou, Vangelis Bonis, Vasilis S. Dionellis, Nikolaos Paschalidis, Pelagia Melissa, Evangelia Chavdoula, Eleni Vasilaki, Ioannis S. Pateras, Apostolos Klinakis

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Figure 5

Reconstitution of the Notch pathway activity in mouse bladders rescues the epithelial integrity defects in vivo.

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Reconstitution of the Notch pathway activity in mouse bladders rescues t...
(A) Immunofluorescence with the indicated antibodies on bladder sections from mice lacking endogenous Notch activity, expressing a constitutively active form of the NOTCH1 receptor. Scale bar: 100 μm. (B) Quantitative PCR analysis of indicated genes from urothelial cell RNA of Krt5CreERT2 Ncstnfl/fl Ef1N1ic mice (n = 5). Expression is presented as ratio over Krt5CreERT2 Ncstnfl/fl mice. *P < 0.05, **P < 0.01, ***P < 0.001, and ****P < 0.0001. (C) Immunofluorescence with antibodies against activated FAK1 (pFAK) on bladder sections from Krt5CreERT2 Ncstnfl/fl Ef1N1ic, and Krt5CreERT2 RBPJfl/fl Ef1N1ic mice. Scale bars: 75 μm and 100 μm, respectively. (D) Scatter dot plot indicates the frequency of toluidine blue–stained cells per 10 HPFs (original magnification, ×400) (y axis) in bladders with reconstituted Notch signaling. Mice analyzed: 4, 4, and 3, respectively. The WT cohort is the same shown in Figure 2C. **P < 0.01. (E) Immunofluorescence with the indicated antibodies on bladder sections from mice lacking endogenous Notch activity in the umbrella layer in which Notch activity has been reconstituted (Krt8CreERT2 Ncstnfl/fl Ef1N1ic). Scale bar: 100 μm. (F) Scatter dot plot indicating urea concentration (ng/dL) in serum from Notch-rescued and Notch-deficient (n = 7 and 6, respectively). ****P < 0.0001. For B, D, and F, data presented are mean value ± SEM and Student’s t test was used. For D, P values were corrected for multiple testing using the Benjamini-Hochberg method. DAPI was used as nuclear counterstain in A, C, and E.