Jacqueline K. Heiss scite author profile

SUMMARY Amyloid-beta (Aβ) oligomers are thought to trigger Alzheimer’s disease (AD) pathophysiology. Cellular Prion Protein (PrPC) selectively binds oligomeric Aβ and can mediate AD-related phenotypes. Here, we examined the specificity, distribution and signaling from Aβ/PrP complexes, seeking to explain how they might alter the function of NMDA receptors in neurons. PrPC is enriched in post-synaptic densities, and Aβ/PrPC interaction leads to Fyn kinase activation. Soluble Aβ assemblies derived from human AD brain interact with PrPC to activate Fyn. Aβ engagement of PrPC/Fyn signaling yields phosphorylation of the NR2B subunit of NMDA-receptors, which is coupled to an initial increase and then loss of surface NMDA-receptors. Aβ-induced LDH release and dendritic spine loss require both PrPC and Fyn, and human familial AD transgene-induced convulsive seizures do not occur in mice lacking PrPC. These results delineate an Aβ oligomer signal transduction pathway requiring PrPC and Fyn to alter synaptic function with relevance to AD.

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Metabotropic Glutamate Receptor 5 Is a Coreceptor for Alzheimer Aβ Oligomer Bound to Cellular Prion Protein

Kaufman

Kostylev

et al. 2013

Neuron

499

534

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SUMMARY Soluble Amyloid-β oligomers (Aβo) trigger Alzheimer’s disease (AD) pathophysiology and bind with high affinity to Cellular Prion Protein (PrPC). At the post-synaptic density (PSD), extracellular Aβo bound to lipid-anchored PrPC activates intracellular Fyn kinase to disrupt synapses. Here, we screened transmembrane PSD proteins heterologously for the ability to couple Aβo–PrPC with Fyn. Only co-expression of the metabotropic glutamate receptor, mGluR5, allowed PrPC-bound Aβo to activate Fyn. PrPC and mGluR5 interact physically, and cytoplasmic Fyn forms a complex with mGluR5. Aβo–PrPC generates mGluR5-mediated increases of intracellular calcium in Xenopus oocytes and in neurons, and the later is also driven by human AD brain extracts. In addition, signaling by Aβo–PrPC–mGluR5 complexes mediates eEF2 phosphorylation and dendritic spine loss. For mice expressing familial AD transgenes, mGluR5 antagonism reverses deficits in learning, memory and synapse density. Thus, Aβo–PrPC complexes at the neuronal surface activate mGluR5 to disrupt neuronal function.

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Metabotropic Glutamate Receptor 5 Is a Coreceptor for Alzheimer Aβ Oligomer Bound to Cellular Prion Protein

Um¹,

Kaufman²,

Kostylev³

et al. 2013

Neuron

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Rescue of Transgenic Alzheimer’s Pathophysiology by Polymeric Cellular Prion Protein Antagonists

Gunther¹,

Smith²,

Kostylev³

et al. 2019

Cell Reports

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Early Activation of Experience-Independent Dendritic Spine Turnover in a Mouse Model of Alzheimer's Disease

Heiss

Barrett

et al. 2016

Cereb. Cortex

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Synaptic loss is critical in Alzheimer's disease (AD), but the dynamics of synapse turnover are poorly defined. We imaged dendritic spines in transgenic APPswe/PSen1∆E9 (APP/PS1) cerebral cortex. Dendritic spine turnover is increased far from plaque in aged APP/PS1 mice, and in young APP/PS1 mice prior to plaque formation. Dysregulation occurs in the presence of soluble Aβ oligomer and requires cellular prion protein (PrPC). APP/PS1 mice lack responsiveness of spine turnover to sensory stimulation. Critically, enhanced spine turnover is coupled with the loss of persistent spines starting early and continuing with age. To evaluate mechanisms of experience-independent supranormal spine turnover, we analyzed the transcriptome of young APP/PS1 mouse brain when turnover is altered but synapse density and memory are normal, and plaque and inflammation are absent. Early PrPC-dependent expression changes occur in synaptic and lipid-metabolizing genes. Thus, pathologic synaptic dysregulation underlying AD begins at a young age prior to Aβ plaque.

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