Jagged1-mediated Notch activation induces epithelial-to-mesenchymal transition through Slug-induced repression of E-cadherin

Leong, Kin Fon; Niessen, Kyle; Kulic, Iva; Raouf, Afshin; Eaves, Connie J.; Pollet, Ingrid L.; Karsan, Aly

doi:10.1084/jem.20071082

Cited by 431 publications

(331 citation statements)

References 56 publications

(77 reference statements)

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“…For instance, in breast cancer, Notch-mediated repression of E-cadherin results in activation of β-catenin and anoikis resistance (Leong et al 2007). In cervical cancer, activated Notch1 signaling synergizes with human papillomavirus (HPV) oncogenes in the transformation of immortalized epithelial cells and generates resistance to anoikis through activation of P13K/Akt pathway (Rangarajan et al 2001).…”

Section: Notch Suppresses Apoptosis/anoikis In Prostate Cancermentioning

confidence: 99%

Notch signaling in the prostate: critical roles during development and in the hallmarks of prostate cancer biology

Deng

et al. 2015

J Cancer Res Clin Oncol

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Section: Notch Suppresses Apoptosis/anoikis In Prostate Cancermentioning

confidence: 99%

Notch signaling in the prostate: critical roles during development and in the hallmarks of prostate cancer biology

Deng

et al. 2015

J Cancer Res Clin Oncol

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“…Expression of the transcription factors Snail and Slug, which are major regulators of EMT, results in transcriptional repression of cell adhesion molecules (such as cadherins) thus allowing the cells to become more invasive [67]. Interestingly, notch signalling has been shown to regulate EMT processes in physiological and pathological events [68][69][70]. Recent evidence from the Karsan group showed that Slug was required for notchmediated repression of E-cadherin, resulting in b-catenin activation and resistance to anoikis [69].…”

Section: Notch Regulates Vessel Branching Through Tip Cell Versus Stamentioning

confidence: 99%

“…Interestingly, notch signalling has been shown to regulate EMT processes in physiological and pathological events [68][69][70]. Recent evidence from the Karsan group showed that Slug was required for notchmediated repression of E-cadherin, resulting in b-catenin activation and resistance to anoikis [69]. This, combined with the fact that Slug was up-regulated and VE-Cadherin-2 down-regulated in cells with activated notch [25], suggests that notch signalling may in fact be actively involved in this process and thus should be investigated further to determine its precise role in vessel cell differentiation.…”

Section: Notch Regulates Vessel Branching Through Tip Cell Versus Stamentioning

confidence: 99%

Regulation of angiogenesis by homotypic and heterotypic notch signalling in endothelial cells and pericytes: from basic research to potential therapies

Sainson

Harris

2008

Angiogenesis

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The notch-signalling pathway regulates cell fate and differentiation through cell-cell communication. In recent years, several in vitro and in vivo studies have demonstrated that notch-signalling functions as a negative feedback mechanism downstream of the VEGF-signalling pathway that acts to finely shape the vascular network. Notch activation by the Jagged-1 and Delta-like 4 ligands regulates different steps of blood vessel development ranging from proliferation and survival of endothelial cells, to vessel branching and arterial-venous differentiation. In addition, heterotypic notch signalling from endothelial cells to pericytes is critical for vessel stabilization and maturation. Interestingly, several studies have demonstrated that blocking the notch pathway can delay tumour growth. Unexpectedly however, tumour growth inhibition by Notch was caused by an increased number of non-functional vessels, which resulted in poor tumour perfusion. This approach of modulating notch signalling, combined with the extended knowledge acquired on the basic vascular role of notch signalling, will aid the development of treatments targetting human pathologies such as tissue ischaemia and solid tumour formation.

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“…In intestinal and mammary epithelial cells, increases in integrin-linked kinase (ILK) activity triggers Wnt signaling and transcription factors Snail and Slug, leading to downregulation of E-cadherin and induction of tumorigenic characteristics (Novak et al 1998;Oloumi et al 2004;Serrano et al 2013). Under hypoxic conditions, the Notch signaling pathway is activated and also leads to the activation of E-cadherin repressors Snail and Slug (Leong et al 2007;Sahlgren et al 2008;Niessen et al 2008). Additionally, transforming growth factor beta (TGF-β), a pivotal regulator of diverse cellular processes such as proliferation, migration, and extracellular matrix remodeling, also functions as a prominent inducer of EMT by enhancing Snail activity that subsequently leads to the loss of E-cadherin (Zeisberg et al 2003;Kalluri and Weinberg 2009).…”

Section: Loss Of E-cadherin In Emtmentioning

confidence: 99%

Cadherins in Cancer

Albrecht¹,

Green²,

Dubash³

2016

The Cadherin Superfamily

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Despite decades of research, cancer remains one of the leading causes of death worldwide. Progression of cancer includes the breakdown or loss of normal tissue structure, which closely depends on the proper expression and regulation of numerous cell-cell adhesion molecules. Not surprisingly, the multifunctional cadherin cell-cell adhesion protein family members have emerged as critical regulators of tumorigenesis. The maintenance of cell-cell junctions and adhesionmediated signaling pathways are tightly regulated by cadherin expression in a tissue-specific manner. In addition to their adhesive functions, cadherins integrate diverse cellular inputs (from cell-cell adhesion to mechanical forces or receptor tyrosine kinase activity) and translate these cues into biochemical intracellular signaling events involved in cell proliferation, motility, survival, and tissue homeostasis. Alterations in cadherin function can lead to cancer progression through a variety of molecular mechanisms including cadherin switching/EMT and the misregulation of different signaling mediators, including Rho GTPases, Ras/MAPK, Hippo/YAP, PI3K/Akt, and other pathways that have been implicated in tumor progression. Furthermore, cadherins have been recently implicated in mechanotransduction and cancer stem cell signaling. In this chapter, we report both fundamental findings and novel insights that define the roles of cadherins in human cancer and discuss how changes in the expression and regulation of these molecules contribute to cancer progression.

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Jagged1-mediated Notch activation induces epithelial-to-mesenchymal transition through Slug-induced repression of E-cadherin

Cited by 431 publications

References 56 publications

Notch signaling in the prostate: critical roles during development and in the hallmarks of prostate cancer biology

Notch signaling in the prostate: critical roles during development and in the hallmarks of prostate cancer biology

Regulation of angiogenesis by homotypic and heterotypic notch signalling in endothelial cells and pericytes: from basic research to potential therapies

Cadherins in Cancer

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