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Notch from Neurodevelopment to Neurodegeneration: Keeping the Fate
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Main description:

Can molecular mechanisms involved in neural development help us to understand, prevent and perhaps reverse the course of brain ageing and neurodegenerative disorders? Brain development and function require complex cellular and molecular processes controlled by a number of different signaling mechanisms. One such signaling mechanism, the Notch pathway, has been recognized as an important player in the regulation of cellfate decisions during early neural development. However, the action of this evolutionary conserved and widely used cell-cell interaction mechanism is not confined to the developing nervous system. In addition, recent studies have shown that elucidating the mechanism of Notch signaling and its role in the brain is important for our understanding of neurological disorders such as Alzheimer's disease and cerebral arteriopathy CADASIL.


Contents:

Regulated intramembrane proteolysis - new lessons from lipid metabolism and the unfolded protein response.-Notch signaling in the brain: more than just a developmental story.-Control of notch activity by the ubiquitin-proteasome pathway.-A presenilin-dependent S3-like gamma-secretase cleavage of the beta-amyloid precursor protein.-New non-peptide inhibitors of gamma-secretase abolish A-beta production without modyfying notch cleavage.-Presenilins, APP, and notch: proteolysis from womb to tomb.-Missorting of the dendritic cell adhesion molecule telencephalin in presenilin-deficient neurons.-Beta-APP processing, its biology and Alzheimer's Disease.-Further analysis of the nicastrin: presenilin complex.-PS1 interacts with and facilitates beta-catenin turnover.-Delta-catenin, presenilin, and the synaptic-adherens junction complex.-Vascular smooth muscle cells are the primary target of the events leading from notch3 mutations to CADASIL.


PRODUCT DETAILS

ISBN-13: 9783642627675
Publisher: Springer (Springer-Verlag Berlin and Heidelberg GmbH & Co. K)
Publication date: October, 2012
Pages: 158
Weight: 285g
Availability: Available
Subcategories: Neurology, Neuroscience
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