BACKGROUND AND PURPOSE: Notch receptors (1-4) are membrane proteins that, on ligand stilumation, release their cytoplasmic domains to serve as transcription factors. Notch-2 promotes proliferation both during development and cancer, but its role in response to ischemic injury is less well understood. The purpose of this study was to understand whether Notch-2 is induced after neonatal stroke and to investigate its functional relevance. METHODS: P12 CD1 mice were subjected to permanent unilateral (right-sided) double ligation of the common carotid artery. RESULTS: Neonatal ischemia induces a progressive brain injury with prolonged apoptosis and Notch-2 up-regulation. Notch-2 expression was induced shortly after injury in hippocampal areas with elevated c-fos activation and increased cell death. Long-term induction of Notch-2 also occurred in CA1 and CA3 in and around areas of cell death, and had a distinct pattern of expression as compared to Notch-1. In vitro oxygen glucose deprivation treatment showed a similar increase in Notch-2 in apoptotic cells. In vitro gain of function experiments, using an active form of Notch-2, show that Notch-2 induction is neurotoxic to a comparable extent as oxygen glucose deprivation treatment. CONCLUSIONS: These results suggest that Notch-2 up-regulation after neonatal ischemia is detrimental to neuronal survival.
BACKGROUND AND PURPOSE:Notch receptors (1-4) are membrane proteins that, on ligand stilumation, release their cytoplasmic domains to serve as transcription factors. Notch-2 promotes proliferation both during development and cancer, but its role in response to ischemic injury is less well understood. The purpose of this study was to understand whether Notch-2 is induced after neonatal stroke and to investigate its functional relevance. METHODS:P12CD1mice were subjected to permanent unilateral (right-sided) double ligation of the common carotid artery. RESULTS:Neonatal ischemia induces a progressive brain injury with prolonged apoptosis and Notch-2 up-regulation. Notch-2 expression was induced shortly after injury in hippocampal areas with elevated c-fos activation and increased cell death. Long-term induction of Notch-2 also occurred in CA1 and CA3 in and around areas of cell death, and had a distinct pattern of expression as compared to Notch-1. In vitro oxygen glucose deprivation treatment showed a similar increase in Notch-2 in apoptotic cells. In vitro gain of function experiments, using an active form of Notch-2, show that Notch-2 induction is neurotoxic to a comparable extent as oxygen glucose deprivation treatment. CONCLUSIONS: These results suggest that Notch-2 up-regulation after neonatal ischemia is detrimental to neuronal survival.
Authors: Anne M Comi; Catherine J C Weisz; Bridget H Highet; Michael V Johnston; Mary Ann Wilson Journal: Pediatr Neurol Date: 2004-10 Impact factor: 3.372
Authors: Jorge G Burneo; Edward Faught; Robert C Knowlton; Roy C Martin; Martina Bebin; Richard Morawetz; Ruben Kuzniecky Journal: Arch Neurol Date: 2003-06
Authors: Thiruma V Arumugam; Sang-Ha Baik; Priyanka Balaganapathy; Christopher G Sobey; Mark P Mattson; Dong-Gyu Jo Journal: Prog Neurobiol Date: 2018-03-21 Impact factor: 11.685