Overcoming barriers and thresholds - signaling of oligomeric A[beta] through the prion protein to Fyn

Evidence has been mounting for an involvement of the prion protein (PrP) in a molecular pathway assumed to play a critical role in the etiology of Alzheimer disease. A currently popular model sees oligomeric amyloid [beta] (oA[beta]) peptides bind directly to PrP to emanate a signal that causes acti...

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Bibliographic Details
Published in:Molecular neurodegeneration 2013-07, Vol.8 (1), p.24-24
Main Authors: Wang, Hansen, Ren, Carl He, Gunawardana, C Geeth, Schmitt-Ulms, Gerold
Format: Article
Language:English
Subjects:
Alzheimer's disease
Amyloid beta-protein
Cell adhesion & migration
Kinases
Medical research
Physiological aspects
Prions
Proteins
Risk factors
Studies
Tyrosine
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Summary:Evidence has been mounting for an involvement of the prion protein (PrP) in a molecular pathway assumed to play a critical role in the etiology of Alzheimer disease. A currently popular model sees oligomeric amyloid [beta] (oA[beta]) peptides bind directly to PrP to emanate a signal that causes activation of the cytoplasmic tyrosine kinase Fyn, an essential player in a cascade of events that ultimately leads to NMDA receptor-mediated excitotoxicity and hyper-phosphorylation of tau. The model does not reveal, however, how extracellular binding of oA[beta] to PrP is communicated across the plasma membrane barrier to affect activation of Fyn. A scenario whereby PrP may adapt a transmembrane topology to affect Fyn activation in the absence of additional partners is currently not supported by evidence. A survey of known candidate PrP interactors leads to a small number of molecules that are known to acquire a transmembrane topology and understood to contribute to Fyn activation. Because multiple signaling pathways converge onto Fyn, a realistic model needs to take into account a reality of Fyn acting as a hub that integrates signals from multiple inhibitory and activating effectors. To clarify the role of PrP in oA[beta]-dependent excitotoxicity, future studies may need to incorporate experimental designs that can probe the contributions of Fyn modulator pathways and rely on analogous readouts, rather than threshold effects, known to underlie excitotoxic signaling.
ISSN:1750-1326
1750-1326
DOI:10.1186/1750-1326-8-24