Endosomal Dysfunction Induced by Directly Overactivating Rab5 Recapitulates Prodromal and Neurodegenerative Features of Alzheimer’s Disease

Neuronal endosomal dysfunction, the earliest known pathobiology specific to Alzheimer’s disease (AD), is mediated by the aberrant activation of Rab5 triggered by APP-β secretase cleaved C-terminal fragment (APP-βCTF). To distinguish pathophysiological consequences specific to overactivated Rab5 itse...

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Published in:Cell reports (Cambridge) 2020-11, Vol.33 (8), p.108420-108420, Article 108420
Main Authors: Pensalfini, Anna, Kim, Seonil, Subbanna, Shivakumar, Bleiwas, Cynthia, Goulbourne, Chris N., Stavrides, Philip H., Jiang, Ying, Lee, Ju-Hyun, Darji, Sandipkumar, Pawlik, Monika, Huo, Chunfeng, Peddy, James, Berg, Martin J., Smiley, John F., Basavarajappa, Balapal S., Nixon, Ralph A.
Format: Article
Language:English
Subjects:
aberrant endosomal signaling
Alzheimer Disease - genetics
Alzheimer Disease - physiopathology
Alzheimer’s disease
amyloid precursor protein
Animals
cholinergic neurodegeneration
Disease Models, Animal
endosomal dysfunction
Endosomes - metabolism
Humans
memory impairment
Mice
Neurodegenerative Diseases - genetics
Neurodegenerative Diseases - physiopathology
rab5 GTP-Binding Proteins - metabolism
Rab5 hyperactivation
spine loss
synaptic deficits
tau
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cited_by cdi_FETCH-LOGICAL-c529t-f9bf01f29c19fd5b8b375c50ca87a2ca0577cff6908f980c4756b7b1fb403c193
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creator Pensalfini, Anna
Kim, Seonil
Subbanna, Shivakumar
Bleiwas, Cynthia
Goulbourne, Chris N.
Stavrides, Philip H.
Jiang, Ying
Lee, Ju-Hyun
Darji, Sandipkumar
Pawlik, Monika
Huo, Chunfeng
Peddy, James
Berg, Martin J.
Smiley, John F.
Basavarajappa, Balapal S.
Nixon, Ralph A.
description Neuronal endosomal dysfunction, the earliest known pathobiology specific to Alzheimer’s disease (AD), is mediated by the aberrant activation of Rab5 triggered by APP-β secretase cleaved C-terminal fragment (APP-βCTF). To distinguish pathophysiological consequences specific to overactivated Rab5 itself, we activate Rab5 independently from APP-βCTF in the PA-Rab5 mouse model. We report that Rab5 overactivation alone recapitulates diverse prodromal and degenerative features of AD. Modest neuron-specific transgenic Rab5 expression inducing hyperactivation of Rab5 comparable to that in AD brain reproduces AD-related Rab5-endosomal enlargement and mistrafficking, hippocampal synaptic plasticity deficits via accelerated AMPAR endocytosis and dendritic spine loss, and tau hyperphosphorylation via activated glycogen synthase kinase-3β. Importantly, Rab5-mediated endosomal dysfunction induces progressive cholinergic neurodegeneration and impairs hippocampal-dependent memory. Aberrant neuronal Rab5-endosome signaling, therefore, drives a pathogenic cascade distinct from β-amyloid-related neurotoxicity, which includes prodromal and neurodegenerative features of AD, and suggests Rab5 overactivation as a potential therapeutic target. [Display omitted] •Pathological Rab5 activation in PA-Rab5 mice mimics AD-like endosomal dysfunction•PA-Rab5 mice have synaptic function/structure deficits and GSK-3β-mediated tauopathy•Rab5 overactivation in vivo underlies cholinergic degeneration and memory deficits•Endosomal dysfunction alone induces prodromal and degenerative AD-related changes Pensalfini et al. generate mice reproducing neuron-specific pathological Rab5 activation (PA-Rab5) and elevated Rab5 expression as seen in AD, but independently of elevating APP-βCTF, its established trigger in AD. Rab5-mediated endosomal dysfunction drives a diverse prodromal/neurodegenerative cascade, independently of β-amyloid, suggesting that Rab5 may be a potential therapeutic target.
doi_str_mv 10.1016/j.celrep.2020.108420
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To distinguish pathophysiological consequences specific to overactivated Rab5 itself, we activate Rab5 independently from APP-βCTF in the PA-Rab5 mouse model. We report that Rab5 overactivation alone recapitulates diverse prodromal and degenerative features of AD. Modest neuron-specific transgenic Rab5 expression inducing hyperactivation of Rab5 comparable to that in AD brain reproduces AD-related Rab5-endosomal enlargement and mistrafficking, hippocampal synaptic plasticity deficits via accelerated AMPAR endocytosis and dendritic spine loss, and tau hyperphosphorylation via activated glycogen synthase kinase-3β. Importantly, Rab5-mediated endosomal dysfunction induces progressive cholinergic neurodegeneration and impairs hippocampal-dependent memory. Aberrant neuronal Rab5-endosome signaling, therefore, drives a pathogenic cascade distinct from β-amyloid-related neurotoxicity, which includes prodromal and neurodegenerative features of AD, and suggests Rab5 overactivation as a potential therapeutic target. [Display omitted] •Pathological Rab5 activation in PA-Rab5 mice mimics AD-like endosomal dysfunction•PA-Rab5 mice have synaptic function/structure deficits and GSK-3β-mediated tauopathy•Rab5 overactivation in vivo underlies cholinergic degeneration and memory deficits•Endosomal dysfunction alone induces prodromal and degenerative AD-related changes Pensalfini et al. generate mice reproducing neuron-specific pathological Rab5 activation (PA-Rab5) and elevated Rab5 expression as seen in AD, but independently of elevating APP-βCTF, its established trigger in AD. 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source BACON - Elsevier - GLOBAL_SCIENCEDIRECT-OPENACCESS
subjects aberrant endosomal signaling
Alzheimer Disease - genetics
Alzheimer Disease - physiopathology
Alzheimer’s disease
amyloid precursor protein
Animals
cholinergic neurodegeneration
Disease Models, Animal
endosomal dysfunction
Endosomes - metabolism
Humans
memory impairment
Mice
Neurodegenerative Diseases - genetics
Neurodegenerative Diseases - physiopathology
rab5 GTP-Binding Proteins - metabolism
Rab5 hyperactivation
spine loss
synaptic deficits
tau
title Endosomal Dysfunction Induced by Directly Overactivating Rab5 Recapitulates Prodromal and Neurodegenerative Features of Alzheimer’s Disease
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