The intracellular domain of Notch ligand Delta1 induces cell growth arrest
- 4 October 2005
- journal article
- Published by Wiley in FEBS Letters
- Vol. 579 (25) , 5798-5802
- https://doi.org/10.1016/j.febslet.2005.09.042
Abstract
Notch signaling involves proteolytic cleavage of the transmembrane Notch receptor after binding to its transmembrane ligands, Delta or Jagged; and the resultant soluble intracellular domain of Notch stimulates a cascade of transcriptional events. The Delta1 ligand also undergoes proteolytic cleavage upon Notch binding, resulting in the production of a free intracellular domain. We demonstrate that the expression of the intracellular domain of Delta1 results in a non‐proliferating senescent‐like cell phenotype which is dependent on the expression of the cell cycle inhibitor, p21, and is abolished by co‐expression of constitutively active Notch1. These data suggest a new intracellular role for Delta1.Keywords
This publication has 23 references indexed in Scilit:
- Stimulation of quiescent cells by individual polypeptide growth factors is limited to one cell cycleEuropean Journal of Cell Biology, 2004
- Loss of negative regulation by Numb over Notch is relevant to human breast carcinogenesisThe Journal of cell biology, 2004
- Glycosylation regulates Notch signallingNature Reviews Molecular Cell Biology, 2003
- The Notch Ligands, Jagged and Delta, Are Sequentially Processed by α-Secretase and Presenilin/γ-Secretase and Release Signaling FragmentsJournal of Biological Chemistry, 2003
- Notch Activation Suppresses Fibroblast Growth Factor-dependent Cellular TransformationJournal of Biological Chemistry, 2003
- Notch-induced Proteolysis and Nuclear Localization of the Delta LigandJournal of Biological Chemistry, 2003
- Soluble Jagged 1 Represses the Function of Its Transmembrane Form to Induce the Formation of the Src-dependent Chord-like PhenotypeJournal of Biological Chemistry, 2001
- Notch Signaling: Cell Fate Control and Signal Integration in DevelopmentScience, 1999
- Extension of Life-Span by Introduction of Telomerase into Normal Human CellsScience, 1998
- Notch SignalingScience, 1995