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Spatiotemporal activation of the C/EBPβ/δ-secretase axis regulates the pathogenesis of Alzheimer's disease.


ABSTRACT: Alzheimer's disease (AD) neuropathological hallmarks include senile plaques with aggregated amyloid beta as a major component, neurofibrillary tangles (NFT) containing truncated and hyperphosphorylated Tau, extensive neuronal loss, and chronic neuroinflammation. However, the key molecular mechanism that dominates the pathogenesis of AD remains elusive for AD. Here we show that the C/EBPβ/δ-secretase axis is activated in an age-dependent manner in different brain regions of the 3×Tg AD mouse model, elevating δ-secretase-truncated APP and Tau proteolytic truncates and promoting senile plaques and NFT formation in the brain, associated with gradual neuronal loss and chronic neuroinflammation. Depletion of inflammatory cytokine-regulated transcription factor C/EBPβ from 3×Tg mice represses APP, Tau, and δ-secretase expression, which subsequently inhibits APP and Tau cleavage, leading to mitigation of AD pathologies. Knockout of δ-secretase from 3×Tg mice strongly blunts AD pathogenesis. Consequently, inactivation of the C/EBPβ/δ-secretase axis ameliorates cognitive dysfunctions in 3×Tg mice by blocking APP and Tau expression and their pathological fragmentation. Thus, our findings support the notion that C/EBPβ/δ-secretase axis plays a crucial role in AD pathogenesis.

SUBMITTER: Wang H 

PROVIDER: S-EPMC6310855 | biostudies-other | 2018 Dec

REPOSITORIES: biostudies-other

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Spatiotemporal activation of the C/EBPβ/δ-secretase axis regulates the pathogenesis of Alzheimer's disease.

Wang Hualong H   Liu Xia X   Chen Shengdi S   Ye Keqiang K  

Proceedings of the National Academy of Sciences of the United States of America 20181210 52


Alzheimer's disease (AD) neuropathological hallmarks include senile plaques with aggregated amyloid beta as a major component, neurofibrillary tangles (NFT) containing truncated and hyperphosphorylated Tau, extensive neuronal loss, and chronic neuroinflammation. However, the key molecular mechanism that dominates the pathogenesis of AD remains elusive for AD. Here we show that the C/EBPβ/δ-secretase axis is activated in an age-dependent manner in different brain regions of the 3×Tg AD mouse mode  ...[more]

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