Blocking Notch-Signaling Increases Neurogenesis in the Striatum after Stroke.
Giuseppe SantopoloJens P MagnussonOlle LindvallZaal KokaiaJonas FrisénPublished in: Cells (2020)
Stroke triggers neurogenesis in the striatum in mice, with new neurons deriving in part from the nearby subventricular zone and in part from parenchymal astrocytes. The initiation of neurogenesis by astrocytes within the striatum is triggered by reduced Notch-signaling, and blocking this signaling pathway by deletion of the gene encoding the obligate Notch coactivator Rbpj is sufficient to activate neurogenesis by striatal astrocytes in the absence of an injury. Here we report that blocking Notch-signaling in stroke increases the neurogenic response to stroke 3.5-fold in mice. Deletion of Rbpj results in the recruitment of a larger number of parenchymal astrocytes to neurogenesis and over larger areas of the striatum. These data suggest inhibition of Notch-signaling as a potential translational strategy to promote neuronal regeneration after stroke.
Keyphrases
- cerebral ischemia
- neural stem cells
- subarachnoid hemorrhage
- atrial fibrillation
- blood brain barrier
- brain injury
- signaling pathway
- prefrontal cortex
- stem cells
- high fat diet induced
- spinal cord injury
- epithelial mesenchymal transition
- type diabetes
- big data
- machine learning
- functional connectivity
- parkinson disease
- gene expression
- electronic health record
- deep learning
- endoplasmic reticulum stress
- wound healing