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Regulation of Synaptic Amyloid-? Generation through BACE1 Retrograde Transport in a Mouse Model of Alzheimer's Disease.


ABSTRACT: Amyloid-? (A?) peptides play a key role in synaptic damage and memory deficits in the early pathogenesis of Alzheimer's disease (AD). Abnormal accumulation of A? at nerve terminals leads to synaptic pathology and ultimately to neurodegeneration. ?-site amyloid precursor protein (APP) cleaving enzyme 1 (BACE1) is the major neuronal ?-secretase for A? generation. However, the mechanisms regulating BACE1 distribution in axons and ? cleavage of APP at synapses remain largely unknown. Here, we reveal that dynein-Snapin-mediated retrograde transport regulates BACE1 trafficking in axons and APP processing at presynaptic terminals. BACE1 is predominantly accumulated within late endosomes at the synapses of AD-related mutant human APP (hAPP) transgenic (Tg) mice and patient brains. Defective retrograde transport by genetic ablation of snapin in mice recapitulates late endocytic retention of BACE1 and increased APP processing at presynaptic sites. Conversely, overexpressing Snapin facilitates BACE1 trafficking and reduces synaptic BACE1 accumulation by enhancing the removal of BACE1 from distal AD axons and presynaptic terminals. Moreover, elevated Snapin expression via stereotactic hippocampal injections of adeno-associated virus particles in mutant hAPP Tg mouse brains decreases synaptic A? levels and ameliorates synapse loss, thus rescuing cognitive impairments associated with hAPP mice. Altogether, our study provides new mechanistic insights into the complex regulation of BACE1 trafficking and presynaptic localization through Snapin-mediated dynein-driven retrograde axonal transport, thereby suggesting a potential approach of modulating A? levels and attenuating synaptic deficits in AD.SIGNIFICANCE STATEMENT ?-Site amyloid precursor protein (APP) cleaving enzyme 1 (BACE1) trafficking and synaptic localization significantly influence its ? secretase activity and amyloid-? (A?) production. In AD brains, BACE1 is accumulated within dystrophic neurites, which is thought to augment A?-induced synaptotoxicity by A? overproduction. However, it remains largely unknown whether axonal transport regulates synaptic APP processing. Here, we demonstrate that Snapin-mediated retrograde transport plays a critical role in removing BACE1 from presynaptic terminals toward the soma, thus reducing synaptic A? production. Adeno-associated virus-mediated Snapin overexpression in the hippocampus of mutant hAPP mice significantly decreases synaptic A? levels, attenuates synapse loss, and thus rescues cognitive deficits. Our study uncovers a new pathway that controls synaptic APP processing by enhancing axonal BACE1 trafficking, thereby advancing our fundamental knowledge critical for ameliorating A?-linked synaptic pathology.

SUBMITTER: Ye X 

PROVIDER: S-EPMC5354320 | biostudies-literature | 2017 Mar

REPOSITORIES: biostudies-literature

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Regulation of Synaptic Amyloid-β Generation through BACE1 Retrograde Transport in a Mouse Model of Alzheimer's Disease.

Ye Xuan X   Feng Tuancheng T   Tammineni Prasad P   Tammineni Prasad P   Chang Qing Q   Jeong Yu Young YY   Margolis David J DJ   Cai Huaibin H   Kusnecov Alexander A   Cai Qian Q  

The Journal of neuroscience : the official journal of the Society for Neuroscience 20170203 10


Amyloid-β (Aβ) peptides play a key role in synaptic damage and memory deficits in the early pathogenesis of Alzheimer's disease (AD). Abnormal accumulation of Aβ at nerve terminals leads to synaptic pathology and ultimately to neurodegeneration. β-site amyloid precursor protein (APP) cleaving enzyme 1 (BACE1) is the major neuronal β-secretase for Aβ generation. However, the mechanisms regulating BACE1 distribution in axons and β cleavage of APP at synapses remain largely unknown. Here, we reveal  ...[more]

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