1. Academic Validation
  2. NOTCH signalling in ovarian cancer angiogenesis

NOTCH signalling in ovarian cancer angiogenesis

  • Ann Transl Med. 2020 Dec;8(24):1705. doi: 10.21037/atm-20-4497.
Jose Alejandro Perez-Fidalgo 1 Belen Ortega 1 Soraya Simon 1 Eleftherios Pierre Samartzis 2 Stergios Boussios 3 4 5
Affiliations

Affiliations

  • 1 Department of Medical Oncology, Hospital Clinico Universitario of Valencia, Biomedical Research Institute INCLIVA, CIBERONC, Valencia, Spain.
  • 2 Department of Gynecology, University Hospital Zurich, Zurich, Switzerland.
  • 3 King's College London, School of Medicine, Guy's Campus, London, UK.
  • 4 Medway NHS Foundation Trust, Gillingham, Kent, UK.
  • 5 AELIA Organization, 9th Km Thessaloniki-Thermi, Thessaloniki, Greece.
Abstract

The Notch signalling pathway is involved in the new vessel formation process by regulating tip and stalk cells, which are key cells in the sprout formation. This process is essential in both normal ovary and Cancer angiogenesis and is regulated by Notch-VEGF crosstalk. Furthermore, Notch has been linked in ovary with stem cell maintenance and epithelial mesenchymal transition processes. Dysregulation of the Notch pathway is frequent in ovarian Cancer (OC) and it has been associated with impaired survival and advanced stages or lymph node involvement. Notch also plays a role in chemoresistance to platinum. In this context, this pathway has emerged as an attractive target for precision medicine in OC. Two main targets of this pathway concentrate the clinical development of compounds blocking Notch: gamma secretase and Delta-like ligand 4. Most of the clinical trials including OC patients have been developed in phase I or phase Ib. Despite being in an early phase, both of these compounds, navicixizumab or demcizumab, two monoclonal Antibodies targeting Dll4, showed promising efficacy data in platinum-resistant OC patients in recent studies. This review will focus on the mechanisms of the Notch pathway with special interest in angiogenesis regulation and the implication of Notch as a potential therapeutic target in OC.

Keywords

Dll4; Notch; Ovarian cancer (OC); angiogenesis; gamma-secretase.

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