Minji K. Uh scite author profile

In development, lymphatic endothelial cells originate within veins and differentiate via a process requiring Prox1. Notch signaling regulates cell-fate decisions, and expression studies suggested that Jag1/Notch1 signaling functions in veins during lymphatic endothelial specification. Using an inducible lymphatic endothelial Prox1CreERT2 driver, Notch signaling was suppressed by deleting Notch1 or expressing dominant-negative Mastermind-like in Prox1+ endothelial cells. Either loss of Notch1 or reduced Notch signaling increased Prox1+ lymphatic endothelial progenitor cell numbers in the veins, leading to incomplete separation of venous and lymphatic vessels. Notch loss of function resulted in excessive Prox1+ lymphatic cells emerging from the cardinal vein and significant lymphatic overgrowth. Moreover, loss of one allele of Notch1 in Prox1 heterozygous mice rescued embryonic lethality due to Prox1 haploinsufficiency and significantly increased Prox1+ lymphatic endothelial progenitor cell numbers. Expression of a constitutively active Notch1 protein in Prox1+ cells suppressed endothelial Prox1 from E9.75 to E13.5, resulting in misspecified lymphatic endothelial cells based upon reduced expression of podoplanin, LYVE1 and VEGFR3. Notch activation resulted in the appearance of blood endothelial cells in peripheral lymphatic vessels. Activation of Notch signaling in the venous endothelium at E10.5 did not arterialize the cardinal vein, suggesting that Notch can no longer promote arterialization in the cardinal vein during this developmental stage. We report a novel role for Notch1 in limiting the number of lymphatic endothelial cells that differentiate from the veins to assure proper lymphatic specification.

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Combined deficiency of Notch1 and Notch3 causes pericyte dysfunction, models CADASIL and results in arteriovenous malformations

Kofler

Cuervo

et al. 2015

Sci Rep

109

101

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Pericytes regulate vessel stability and pericyte dysfunction contributes to retinopathies, stroke, and cancer. Here we define Notch as a key regulator of pericyte function during angiogenesis. In Notch1+/−; Notch3−/− mice, combined deficiency of Notch1 and Notch3 altered pericyte interaction with the endothelium and reduced pericyte coverage of the retinal vasculature. Notch1 and Notch3 were shown to cooperate to promote proper vascular basement membrane formation and contribute to endothelial cell quiescence. Accordingly, loss of pericyte function due to Notch deficiency exacerbates endothelial cell activation caused by Notch1 haploinsufficiency. Mice mutant for Notch1 and Notch3 develop arteriovenous malformations and display hallmarks of the ischemic stroke disease CADASIL. Thus, Notch deficiency compromises pericyte function and contributes to vascular pathologies.

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Notch signaling functions in lymphatic valve formation

Murtomäki

Kitajewski

et al. 2014

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Collecting lymphatic ducts contain intraluminal valves that prevent backflow. In mice, lymphatic valve morphogenesis begins at embryonic day 15.5 (E15.5). In the mesentery, Prox1 expression is high in valve-forming lymphatic endothelial cells, whereas cells of the lymphatic ducts express lower levels of Prox1. Integrin α9, fibronectin EIIIA, Foxc2, calcineurin and the gap junction protein Cx37 are required for lymphatic valve formation. We show that Notch1 is expressed throughout the developing mesenteric lymphatic vessels at E16.5, and that, by E18.5, Notch1 expression becomes highly enriched in the lymphatic valve endothelial cells. Using a Notch reporter mouse, Notch activity was detected in lymphatic valves at E17.5 and E18.5. The role of Notch in lymphatic valve morphogenesis was studied using a conditional lymphatic endothelial cell driver either to delete Notch1 or to express a dominant-negative Mastermind-like (DNMAML) transgene. Deletion of Notch1 led to an expansion of Prox1high cells, a defect in Prox1high cell reorientation and a decrease in integrin α9 expression at sites of valve formation. Expression of DNMAML, which blocks all Notch signaling, resulted in a more severe phenotype characterized by a decrease in valves, failure of Prox1high cells to cluster, and rounding of the nuclei and decreased fibronectin-EIIIA expression in the Prox1high cells found at valve sites. In human dermal lymphatic endothelial cells, activation of Notch1 or Notch4 induced integrin α9, fibronectin EIIIA and Cx37 expression. We conclude that Notch signaling is required for proper lymphatic valve formation and regulates integrin α9 and fibronectin EIIIA expression during valve morphogenesis.

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Unique functions for Notch4 in murine embryonic lymphangiogenesis

Muley

Simone

et al. 2021

Angiogenesis

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In mice, embryonic dermal lymphatic development is well understood and used to study gene functions in lymphangiogenesis. Notch signaling is an evolutionarily conserved pathway that modulates cell fate decisions, which has been shown to both inhibit and promote dermal lymphangiogenesis. Here, we demonstrate distinct roles for Notch4 signaling versus canonical Notch signaling in embryonic dermal lymphangiogenesis. Actively growing embryonic dermal lymphatics expressed NOTCH1, NOTCH4, and DLL4 which correlated with Notch activity. In lymphatic endothelial cells (LECs), DLL4 activation of Notch induced a subset of Notch effectors and lymphatic genes, which were distinctly regulated by Notch1 and Notch4 activation. Treatment of LECs with VEGF-A or VEGF-C upregulated Dll4 transcripts and differentially and temporally regulated the expression of Notch1 and Hes/Hey genes. Mice nullizygous for Notch4 had an increase in the closure of the lymphangiogenic fronts which correlated with reduced vessel caliber in the maturing lymphatic plexus at E14.5 and reduced branching at E16.5. Activation of Notch4 suppressed LEC migration in a wounding assay significantly more than Notch1, suggesting a dominant role for Notch4 in regulating LEC migration. Unlike Notch4 nulls, inhibition of canonical Notch signaling by expressing a dominant negative form of MAML1 (DNMAML) in Prox1+ LECs led to increased lymphatic density consistent with an increase in LEC proliferation, described for the loss of LEC Notch1. Moreover, loss of Notch4 did not affect LEC canonical Notch signaling. Thus, we propose that Notch4 signaling and canonical Notch signaling have distinct functions in the coordination of embryonic dermal lymphangiogenesis.

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Evaluating Tumor Angiogenesis

Kandel

Kitajewski

2012

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The evaluation of tumor angiogenesis in pancreatic cancers involves determining the status of tumor vasculature and hypoxia in the tumor. Describing the nature and extent of tumor angiogenesis involves evaluating the expression of endothelial and perivascular cells within the tumor, and the expression of angiogenesis-related genes in tumor vasculature. Here we describe the methodology for assessment of tumor vasculature in murine mouse models of cancer. Specifically, we provide methodology for the evaluation of tumor hypoxia, tumor vessel perfusion, and chromogenic and fluorescent immunohistochemistry applied to tumor vascular analysis.

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Minji K. Uh

Notch1 functions as a negative regulator of lymphatic endothelial cell differentiation in the venous endothelium

Combined deficiency of Notch1 and Notch3 causes pericyte dysfunction, models CADASIL and results in arteriovenous malformations

Notch signaling functions in lymphatic valve formation

Unique functions for Notch4 in murine embryonic lymphangiogenesis

Evaluating Tumor Angiogenesis

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